2025 Oral Presentations

Abstract # 100 - Training Course
10/13/2025 - 8:30 AM - 4:30 PM - Ivy 2 (Moody Gardens Hotel)

Understanding Test Method Precision, Bias, ILS Design, Statistical Quality Control Charts

Alex Lau - ASTM

Understanding Variation in Measurements:

• 'Statistical Thinking' philosophy and Core Concepts as applied to the measurement process

Precision Fundamentals:

• Overview of the Normal distribution and standard deviation concepts test method repeatability, reproducibility, and site prevision
• how r & R are estimated using ILS per D6300

In-Statistical-Control Fundamentals:

• Basic statistical theory, concept, and work process for statistical control charts (I, MR, EWMA)

Brief discussion on EPA Tier III SQC requirements

MUST REGISTER for this course at the link below:

Understanding Test Method Precision, Bias, ILS Design, Statistical Quality Control Charts

Abstract # 101 - Paper
10/14/2025 - 1:25 PM - 1:55 PM - Iris

ASTM D8148 – Bringing Haze and Clarity Ratings into the Modern Age

Ranzy Morgan - Choice Analytical Inc.

Utilizing simple operation and world-class spectroscopic techniques, the new ASTM test method D8148 delivers the rapid, precise, and reliable haze and clarity determination measurement capability needed for today’s demanding petroleum and bio -based process control and product quality assurance applications. These applications include all light/middle distillate fuels (gasoline, jet and diesel) and biofuels.  These materials are produced and transported in significant quantities and in each case the absence of haze, or product clarity, is an important quality control / workmanship requirement. Consequently, the determination and rating of haze and clarity in a wide variety of petroleum and biomass-based matrices is essential.     After background and an introductory overview of the D8148 method, data is presented which demonstrates the power and flexibility made possible by this unique spectroscopic technology, provide updates on the latest ASTM activities and field testing as well as introducing the new portable insertion probe-based technique.

Abstract # 102 - Paper
10/15/2025 - 11:45 AM - 12:10 PM - Orchid

Streamlining Spectroscopic Calibration

Brian Rohrback - Infometrix, Inc.

The adage “you can’t control what you don’t measure” may be old but it will always hold true. In the hydrocarbon processing industry, optical spectrometers are deployed to measure the chemistry and the physical attributes of the products we produce. Spectroscopy’s advantage is that it is non-destructive, fast, can be run on-line, and provides quantitative information.  On a continuous basis, a maintenance effort is required to determine the optimum number of factors and identify outliers that degrade model performance.  This updating can be completely automated and optimized for any spectrometer employing any software.

Abstract # 103 - Paper
10/15/2025 - 8:00 AM - 8:25 AM - Bluebonnet

Adding Repeatability and Reliability in Chromatography

Brian Rohrback - Infometrix, Inc.

Chromatography is one of the most useful technologies to employ in the hydrocarbon processing industry. In many cases, it is the cheapest and most adaptable technology available to fully document the composition of our samples. Two chemometrics technologies can be added to any chromatographic data source to streamline and simplify data handling.  One is a signal processing approach that eliminates retention time variability.  The second allows fully automated interpretation of chromatographic data to assess the data quality objectively.  These approaches work with any instrument, lab or process.

Abstract # 104 - Training Course
10/14/2025 - 8:00 AM - 2:00 PM - Orchid

Gas Chromatography: Beginner to Expert in 4 hours!

Lee Polite - Axion Analytical Labs and Training Institute, Inc.

Gas Chromatography is one of the most popular analytical tools in the world, yet very few people understand how it works.  During this 1-day course, you will not only understand it, but you will master it!   We'll start by reviewing the fundamentals of GC (column flow, temperature, length, diameter, film thickness, stationary phase, split ratio, etc.). Then I'll show you how to use those fundamentals to develop and optimize methods from scratch.  It is like driving a car: Once you understand the purpose of the pedals and steering wheel, you can drive anywhere you want without thinking about it.  By the end of this class, you will be able to develop a method from scratch, optimize that method, cut the analysis time in half for any current method, and troubleshoot/fix your instruments.  My goal is to put you into the driver's seat, so you are in control of your GC and not vice versa!   Dr. Polite has made a 25-year career out of explaining complex topics in an easily understood manner.  This class is no exception.

Class is 4 hours - 8:00AM - 10:00AM - Break for Keynote Speaker & Lunch - Resume 12:00PM to 2:00PM

Abstract # 105 - Paper
10/15/2025 - 8:00 AM - 8:20 AM - Orchid

Exploring Uncertainties of Reference Materials

Leon Gilchrist - DCG

Refinery and petrochemical laboratories utilize various instruments and test methods to qualify production processes and quantify final products. Critical to this is the need for quality reference materials (RMs) and certified reference materials (CRMs) for component identification, instrument calibration, and check standards. But what is the difference between these references and their associated uncertainties? When should each type be utilized by the lab if not specified in an ASTM, GPA, UOP or ISO method, or if a variation of the method is needed? This presentation will explain the differences between RMs and CRMs and their effect on laboratory data uncertainty.

Abstract # 116 - Workshop
10/15/2025 - 1:15 PM - 2:45 PM - Iris

Identification & Quantification of Microplastics Using Pyrolysis-GC/MS

Rojin Belganeh - Frontier Laboratories Ltd.
William Pipkin - Frontier Laboratories Ltd.
Ichi Watanabe - Frontier Laboratories Ltd.
Athena Nguyen - Frontier Laboratories Ltd.

Microplastics (MPs) are tiny plastic particles that measure less than five millimeters across. They result from the breakdown of larger commercial plastics or by breaking away from larger plastics that have fragmented over time, like debris from tire wear. The number of commercial products with intentionally added microplastics is massive: cosmetics, detergents, paints, medicines, diapers, pesticides – the list goes on. Over time, these tiny particles end up flooding our environment.

This workshop demonstrates how micro-furnace pyrolysis-GC/MS quantifies and identifies MPs in environmental samples based on ASTM 8401-24 and other matrices. You will also perform hands-on data interpretation using the F-Search MP engine, analytical software for MP analysis.

Abstract # 117 - Paper
10/15/2025 - 8:20 AM - 9:05 AM - Orchid

Moisture and Solids Determination: Applications Based on Sample Characterization

Paula Heimler - METTLER TOLEDO

Moisture & Solids Content affects the processibility, shelf life, usability and quality of Wastewater, Plastics, Chemicals, Pharmaceutical Substances, Cosmetics, Foods.

Intended Audience: Lab, Production & Quality Managers, Senior Scientists, Metrologists

• What is Loss on Drying (LOD)?
• Drying Oven vs Moisture & Solids Analysis vs Titration
• Fundamentals and Best Practices
• Applications and Sample Preparation
• Data Management
• Demonstration-Hands on

Abstract # 118 - Paper
10/14/2025 - 8:00 AM - 8:30 AM - Wisteria

Advancements in EPH Fractionation: Overcoming Challenges and Enhancing Efficiency

Christopher Mitchell - Biotage

Extractable petroleum hydrocarbon (EPH) fractionation is a specialized methodology utilized to separate aliphatic and aromatic fractions of petroleum hydrocarbons found in environmental samples. Information obtained from EPH fractionation testing provides a more detailed assessment of the hydrocarbon composition and helps environmental scientists identify the potential impact of these contaminants. The three laboratory techniques commonly used for Extractable Petroleum Hydrocarbon (EPH) fractionation are High-Performance Liquid Chromatography (HPLC) Fractionation, Solid Phase Extraction (SPE), and Gas Chromatography with a secondary column (GCxGC). Each technique has challenges such as low sample throughput, high solvent usage, breakthrough of fractions, potential contamination, and issues related to analytical data processing. This investigation outlines challenges for solid phase extraction and solutions to meet the regulatory requirements of various states and regions in North America. Results demonstrate why utilization of positive pressure SPE on automated platforms such as the Biotage ExtraheraTM provides an innovative approach to performing EPH fractionations, offering improved control and consistent processing. In addition to consistent positive pressure processing, the use of ISOLUTE® EPH SPE consumables eliminates the potential risk of unwanted fraction breakthrough. Overall, the benefits of choosing solid phase extraction over other techniques are highlighted, emphasizing solvent reduction, faster processing times, higher throughput and enhanced accuracy and reproducibility. The findings of this research contribute valuable insights for laboratories seeking to optimize EPH fractionation techniques for more efficient and reliable analyses.

Abstract # 122 - Paper
10/14/2025 - 8:30 AM - 9:30 AM - Wisteria

Cyanides in the Cracking Products, Organics in the Boiler Water, and Moisture in the Feedstocks—How Can Xylem Help?

Garrett Slaton - Xylem

This presentation aims to introduce analytical solutions to problems of high interest to the refinery and chemical plant space.  These include 1) measurement of the cyanide content in hydrocracking and fluid catalytic cracking (FCC) products of hydrocarbons, 2) extraction and filter breakthrough in condensate return which can be measured with total organic carbon (TOC) analyzers, 3) moisture in petroleum feedstocks by Karl Fischer (KF) titration.  All these analyses are designed to prevent disasters and mitigate severe issues in your plant’s workflow and Xylem Analytics offers solutions for each.

Abstract # 123 - Paper
10/15/2025 - 2:00 PM - 3:00 PM - Daffodil

Delving into Cyanide and TOC Analysis for Refinery and Plant Applications: Cracking and Boilers.

Garrett Slaton - Xylem

Hydrocracking and fluid catalytic cracking (FCC) can generate sour water with cyanide content which can take various forms depending on conditions. Total, available (amenable) and free cyanide analysis using injection segmented flow analysis incorporating a gas diffusion manifold to handle hydrogen cyanide gas safely and either amperometric or photometric detection will be described, along with interferents and common pitfalls.  Total organic carbon (TOC) analysis of boiler feed water can help to eliminate corrosive species in the heat exchanger system, prolonging life and lowering maintenance costs and downtime.  The use of TOC measurements, both from in-line monitoring systems and benchtop analyzers will be described, with comparisons of the two approaches.

Abstract # 124 - Paper
10/15/2025 - 8:25 AM - 8:45 AM - Bluebonnet

Cryogenic Milling as a Key Sample Preparation Step for Microplastic Analysis in Water via Pyrolysis-GC/MS

Athena Nguyen - Frontier Lab Americas

Cryogenic milling is a critical step in preparing water samples for microplastic (MP) analysis via pyrolysis-GC/MS. Using the IQ MILL-2070, filtered and oven-dried samples were efficiently pulverized under liquid nitrogen cooling, ensuring polymer integrity and homogeneity. This method minimizes thermal degradation and supports consistent, reproducible results. Cryo-milling enhances sample quality and lays the foundation for sensitive, trace-level MP detection, making it a valuable tool in environmental microplastic research.

Abstract # 131 - Paper
10/14/2025 - 9:30 AM - 9:55 AM - Wisteria

Analysis of Several Challenging Elements in Petroleum Products by ICP-MS

Aaron Hineman - PerkinElmer

ASTM method D8110-17 details the analysis of trace contaminants such as Al, Ca, Cu, Fe, Pb, Mg, and K in light distillate products.  However, other metals are also of interest and D8110-17 does provide method development flexibility to include additional elements.   Challenges in analyzing petroleum products include volatility, carbon buildup, contamination, and spectral interferences. Contamination with common elements, such as Si, P and S, of solvents used to dilute petroleum samples before analysis can affect their levels of detection.  However, the biggest challenges are spectral interferences. Fortunately, with the latest technological advancements in ICP-MS these challenges can be overcome.  This work presents data for the analysis of Si, P, S, As and Hg in petroleum products in addition to D8110-17 method data.

Abstract # 132 - Paper
10/14/2025 - 12:30 PM - 1:00 PM - Wisteria

Analysis of Nanoparticles in Organic Solvents by Single Particle ICP-MS with a Dynamic Reaction Cell

Aaron Hineman - PerkinElmer

Metallic contamination in organic solvents can severely compromise product integrity in ultra-trace applications, particularly in the semiconductor industry.  Among various impurities, metals, most notably iron (Fe), are frequently encountered and can significantly degrade both product performance and value. Single particle inductively coupled plasma mass spectrometry (SP-ICP-MS) has emerged as a powerful technique for nanoparticle analysis, capable of detecting, counting, and sizing individual particles at concentrations as low as 100–1000 particles/mL.  However, interferences — especially polyatomic species — can limit the system's detection capabilities. For example, accurate Fe nanoparticle detection is hindered by the ⁴⁰Ar¹⁶O⁺ interference on ⁵⁶Fe⁺. This work demonstrates the use of SP-ICP-MS in Reaction mode with Dynamic Bandpass Tuning (DRC) to effectively eliminate polyatomic interferences for iron and other elemental nanoparticle impurities, such as silica. This approach enables reliable detection and characterization of metallic nanoparticles in organic solvents, achieving lower size detection limits and improved analytical confidence.

Abstract # 134 - Paper
10/15/2025 - 8:45 AM - 9:05 AM - Bluebonnet

Quartz for SCD Combustion Tubes

Randall Shearer - University of Colorado, Boulder

Using quartz as the basis of SCD (Sulfur Chemiluminescence Detection) combustion tubes was reexamined, primarily aimed at improving detector performance. Research focused on the Agilent model 8355 but is applicable to other versions and competitive models. From early SCD development, quartz was used as a combustion material but suffered from an unknown high background, among other issues. The author now believes the background is due to the formation of silicon monoxide. Evidence to support this will be presented. The high background problem has been solved with the use of hybrid materials, resulting in better stability and consistency among combustion tubes.

Abstract # 136 - Training Course
10/14/2025 - 8:00 AM - 9:30 AM - Hibiscus

Polymer Chromatography: Beyond MW and Polydispersity with Advanced Detection GPC/SEC

John Erne - Analytical Outfitters, LLC

For polymer scientists, molecular weight and polydispersity are the two most critical pieces of information about a given sample.  Size Exclusion Chromatography, usually carried out as Gel Permeation Chromatography, is the go-to technique to determine these parameters.  From the same sample preparation, much more information about the sample can be gained than just Mw, Mn, Mz.  Additional detectors including light scattering (SEC-LS or SEC-MALS), a second concentration detector (UV-VIS or dRI), and inline viscometers unlock additional information about the sample.  These add-ons can also simplify calibration and verification.  Column and standards selection, method development and troubleshooting basics will be covered at the end for those interested in expanding their familiarity with GPC/SEC.

Abstract # 137 - Training Course
10/16/2025 - 9:00 AM - 4:00 PM - Ivy 2 (Moody Gardens Hotel)

Analytical Training - Bridging the Gap Between Chemists and Process Engineers

Jean-Francois Borny - BASIC

This course will include a complete tour of the analytical laboratory for the petroleum industry. We will discuss many analytical instruments and their basic function and technology. This will include GCs, ICP, ICP-MS, XRD, XRF, elemental analyzers, titrators and more. This course will also bridge the gap that some chemist experience while discussing the engineer needs including reading P&ID, block flow diagram, online analyzers, sampling, and sampling system. And finally, we will discuss the different standardized methodologies including ASTM, UOP, IFP, GPA methods and dive into QA/QC including repeatability and reproducibility. The course will be heavily supported by real world examples and as an open forum for questions and answers throughout the day. 

Abstract # 140 - Seminar
10/15/2025 - 11:30 AM - 12:30 PM - Floral Hall

Demystifying the Black Box of AI: Recent Advancements in the Manufacturing Industry with Lou Zhang

Lou Zhang - Datacor

Abstract # 141 - Paper
10/14/2025 - 8:55 AM - 9:15 AM - Tulip

Characterization of highly dispersed polymers and their end groups by combining SEC/MALDI-TOFMS and Kendrick mass defect analysis

Bryan Katzenmeyer - JEOL
Takaya Satoh - JEOL
Takafumi Sato - JEOL
Kumiko Ikuta - TOSOH Analysis and Research Center Co.,Ltd.
Yuko Matsubuchi - TOSOH Analysis and Research Center Co.,Ltd.
Takayasu Hirai - TOSOH Analysis and Research Center Co.,Ltd.
Nobuyuki Kagawa - TOSOH Analysis and Research Center Co.,Ltd.
Tetsuya Sugimoto - S.T.Japan Inc.
Tsuneo Kobayashi - S.T.Japan Inc.

Matrix-assisted laser/desorption ionization time-of-flight mass spectrometry (MALDI-TOFMS) is an effective method for analyzing polymers. However, polymers with high polydispersity can cause mass discrimination, where ion intensity decreases at higher molecular weights. We combined size-exclusion chromatography (SEC) with MALDI-TOFMS and MALDI-TOF/TOFMS to address this. In this report, we performed end-group analysis of polymer samples with high polydispersity and molecular weights below 50,000 using SEC and high-performance MALDI-TOFMS. We report (i) efficient MALDI pretreatment from SEC fractionation, (ii) improved visualization of end-group changes through remainder of Kendrick Mass (RKM) plots, and (iii) end-group analysis utilizing high mass accuracy and TOF/TOF measurements. Two polycaprolactone (PCL) samples with different end-groups were dissolved in THF and fractionated using SEC. Six fractions were collected, significantly decreasing the polydispersity index (PDI) from > 1.4 Ð to < 1.1 Ð. MALDI-TOFMS analysis revealed a series of PCL monomers and reduced mass discrimination, with isotopic peak separation achieved up to m/z 20,000, allowing precise end-group determination within < 2 ppm. Although the change in molecular weight distribution is easily observed in the mass spectra, understanding the changes in end-groups based on molecular weight is challenging. To visualize end-group changes, we converted the mass spectra into RKM plots. These plots clarified that cyclic oligomers dominated at low molecular weights, while higher weights exhibited two distinct mass distributions corresponding to different end-groups, identified as C4H10O and C4H10O3 through accurate mass and MS/MS (TOF/TOF) measurements.

Abstract # 144 - Paper
10/14/2025 - 1:55 PM - 2:25 PM - Iris

The Data-Driven Plant: How AI Transforms Process Analytics

David Cuthbert - Wasson-ECE Instrumentation

This presentation explores how artificial intelligence will transform chemical manufacturing, particularly in process control and analytical chemistry. It contrasts traditional reactive control methods that rely on downstream measurements with AI-driven predictive systems that enable proactive optimization through upstream monitoring. The key transformation shifts focus from "fix-it-after-it-happens" to "prevent-it-before-it-happens" methodologies. Success requires comprehensive data collection today to build tomorrow's AI models. Rather than replacing analytical chemists, AI will evolve their roles from data gatherers to decision enablers who train models, interpret insights, and bridge AI recommendations with operational reality. Companies must invest in data infrastructure now to remain competitive.

Abstract # 145 - Paper
10/14/2025 - 1:20 PM - 2:00 PM - Wisteria

Analysis of Elemental Impurities in Diesel by the New PlasmaQuant 9200 HR ICP-OES According to ASTM D7111-16

Jesus Acapulco - Analytik Jena
Jess Gantt - Analytik Jena
Kilian Schneider - Analytik Jena
Maximilian Schüssler - Analytik Jena

This study presents a methodology for the direct determination of elemental impurities in diesel fuel using the new PlasmaQuant 9200 high-resolution inductively coupled plasma optical emission spectrometry (HR ICP-OES) in compliance with ASTM D7111-16. Diesel’s complex organic matrix, high carbon content, and potential for severe spectral interferences pose significant analytical challenges. Analytik Jena’s recently launched PlasmaQuant 9200 —a space saving powerhouse —features an upgraded robust plasma system while retaining its high-resolution optics (2 pm @ 200 nm), enabling accurate trace element detection. This approach achieves limits of detection in the low µg/kg range for all target elements, even in undiluted diesel samples. Method validation demonstrated recovery range within ±8% range for both QC standards and spiked samples, with signal drift under 4% over an eight-hour run. The results confirm that the new PlasmaQuant 9200 HR ICP-OES method provides accurate, precise, and interference-free elemental analysis, supporting improved diesel quality control and compliance with regulatory requirements.

Abstract # 146 - Paper
10/15/2025 - 9:05 AM - 9:35 AM - Orchid

Unlocking Maximum Value Across the Catalyst Lifecycle

Monica Rodriguez - Malvern Panalytical

Catalysts are among the most valuable assets in refining operations, impacting efficiency, yield, and sustainability. We empower you to utilize full potential from your catalysts throughout their entire lifecycle. Join us to explore how our expanded analytical portfolio delivers unique synergies that enhance catalyst performance from design to regeneration. This session will highlight how combining techniques such as dynamic chemisorption with rare earth element composition analysis provides deeper insights into active site behavior. We’ll also showcase how porosity and particle size and attrition analysis contribute to optimal column packing and mechanical stability. Whether you're involved in catalyst development, process, or lifecycle management, this talk will demonstrate how integrated characterization tools can drive efficiency, reliability, and added value across your catalyst value chain.

Abstract # 147 - Paper
10/14/2025 - 8:25 AM - 8:45 AM - Iris

Important Considerations for Py-GC/MS Analysis of Microplastics on Particulate Matter Filters

William Pipkin - ATRq
Atsushi Watanabe - Frontier Laboratories Ltd
Takashi Kimoto - Kimoto Electric Co., Ltd
Rojin Belganeh - Frontier Laboratories Americas

As a result of a 3-year program to improve analytical methods utilizing Py-GC/MS to measure atmospheric microplastics (AMPs) on particulate matter (PM) air filters, we report on the experimental aspects that need to be carefully considered to ensure reliable measurements. PM filter issues such as sampling methods, filter selection, pretreatment, storage, and removal of interfering organics and inorganics from sampled PM filters are presented. The impact of these issues on identification and quantification of AMPs by Py-GC/MS and their mitigation are discussed. PM filters of various sizes, i.e., TSP, PM10, and PM2.5. were sampled in Tokushima, Osaka, and Koriyama Japan.

Abstract # 148 - Paper
10/14/2025 - 12:00 PM - 12:45 PM - Tulip

Diviner: A Semi-AutoML Approach to Collaborative Model Building

Nathanial Watson - Eigenvector Research, Inc.

Diviner is a semi-autoML approach that addresses traditional AutoML's black-box limitations by involving analysts in the model-building process. Instead of producing a single optimal model, the method creates a ranked family of models based on cross-validation performance, overfitting, and prediction error. The process includes user-assisted outlier assessment, variable selection, preprocessing exploration, and linear model calibration. Users can then select models for further refinement. Models can be linear or non-linear. The final output can be a single model, top-ranked models, or an ensemble. This collaborative approach bridges full automation and user customization, delivering improved transparency, interpretability, and model diversity while maintaining predictive accuracy.

Abstract # 150 - Paper
10/15/2025 - 9:50 AM - 10:10 AM - Wisteria

Automated Analysis of Diene Value in Pyrolysis Oil, Gasoline & Naphtha in 5 minutes

Harm Moes - Da Vinci Laboratory Solutions
Don Crider - WindWard Analytical

Abstract # 152 - Paper
10/15/2025 - 9:30 AM - 9:50 AM - Iris

Advances in High-Performance WDXRF for Petrochemical Applications

Julia Sedlmair - Bruker AXS

Elemental analysis in the petrochemical industry requires compliance with multiple international standards while maintaining high throughput and instrument availability. The new S8 TIGER Series 3 wavelength-dispersive X-ray fluorescence (WDXRF) spectrometer introduces hardware and software improvements aimed at meeting these requirements with enhanced robustness and operational reliability. This presentation will discuss how these developments support consistent performance across a wide range of petrochemical applications. Case studies relevant to process control will be presented, illustrating the effect of the new developments.

Abstract # 153 - Paper
10/15/2025 - 12:00 PM - 12:25 PM - Wisteria

Advancing Sample Preparation for Elemental Analysis: Strategies for Handling Challenging Matrices

Rick Headrick - Milestone, Inc.

Accurate elemental analysis depends on complete digestion, yet petrochemical and industrial samples such as crudes, catalysts, and polymers remain difficult to prepare. This session explores best practices for handling high-matrix materials, from selecting digestion techniques and chemistries to minimizing contamination and improving safety. Comparative workflows, instrumentation considerations, and real-world case studies will highlight how advanced sample prep solutions ensure reproducibility, compliance with ASTM methods, and reliable results for ICP-OES, ICP-MS, and AA applications.

Abstract # 154 - Paper
10/15/2025 - 1:10 PM - 1:35 PM - Wisteria

Optimizing the Total Workflow for Elemental Analysis in the Petrochemical Industry

Rick Headrick - Milestone, Inc.

Elemental analysis success depends on the entire workflow, not just detection. Petrochemical labs face challenges with complex matrices, contamination, and regulatory compliance. This presentation examines strategies for optimizing each step, from sample collection and digestion to acid purity and instrument integration. Case studies illustrate gains in reproducibility, reduced rework, and compliance with ASTM and EPA methods. Attendees will learn how adopting a total workflow mindset improves productivity, safety, and data integrity across petrochemical applications such as wear metals, catalyst poisons, and trace contaminants.

Abstract # 155 - Paper
10/15/2025 - 12:45 PM - 1:10 PM - Wisteria

Direct Mercury Analysis in Complex Petrochemical Matrices: A Fast, Reliable Alternative to CVAA and ICP

Rick Headrick - Milestone, Inc.

Mercury testing is critical in petrochemical labs, yet CVAA and ICP methods require laborious digestion and generate hazardous waste. Direct mercury analysis (DMA) offers a faster, cleaner alternative, delivering ppt–ppm detection in solids, liquids, and gases within minutes. This session covers DMA workflow advantages, including improved accuracy, reduced contamination, and compliance with ASTM and EPA methods. Case studies from refinery and environmental applications demonstrate cost savings, safer operations, and streamlined throughput.

Abstract # 156 - Paper
10/15/2025 - 8:00 AM - 8:45 AM - Iris

Water analysis in petrochemicals – the Karl Fischer Oven advantage

Eduardo Simoes, MSc - Metrohm USA

Analyzing the water content in petrochemicals like lubricants and hydraulic oils can be challenging due to high viscosity and interfering reactions. The Karl Fischer oven technique is an excellent solution. This auxiliary method uses a gas extraction process to accurately determine water content in difficult samples, an approach recognized by ASTM standard D6304. Attend this course to learn how to optimize this automated technique for reliable and accurate moisture analysis across all petrochemical samples.

Abstract # 157 - Paper
10/14/2025 - 12:00 PM - 12:30 PM - Wisteria

Advancing Corrosion Management through IC Analysis of Amines

Dr. Jay Gandhi - Metrohm USA

Oil pipelines and refineries require constant monitoring and upkeep to maintain successful operations.  To minimize corrosive gases and neutralize hydrogen sulfide vapor, amines are routinely added during the transport of crude oil.   However, if too much amine is added, corrosion rates may accelerate. Therefore, it is in the industry’s best interest to monitor these compounds at various locations.  Cooperation continues between ASTM and industry partners to develop a standard practice for extraction of water-soluble amines in crude oil.  This talk addresses the impact of amines on crude refinement and the versatility of ion chromatography to monitor these species.

Abstract # 158 - Paper
10/14/2025 - 2:00 PM - 2:45 PM - Wisteria

Unlocking Standardized Combustion Ion Chromatography Methods for Petrochemical Quality Assurance

Dr. Jay Gandhi - Metrohm USA

Combustion Ion chromatography (CIC) is used extensively for monitoring halides and sulfur in petrochemicals.   The ability to independently measure fluorine, chlorine, bromine, and sulfur in a variety of sample matrices by one analysis is unique to CIC, which allows producers and buyers to verify product quality and justify their price.  Many standardized test methods (STM’s) have been published so that CIC-generated data is reliable and precise across the industry.  This talk describes three such methods to analyze petroleum distillates, liquified petroleum gas (LPG), and organic solvents and includes real-world examples.

Abstract # 160 - Paper
10/14/2025 - 8:45 AM - 9:05 AM - Floral Hall A2

Waste Plastic Process Oil Analytical Advances Symposium

Jean-Francois Borny - Lummus Tech

Abstract # 161 - Paper
10/15/2025 - 12:25 PM - 12:45 PM - Wisteria

From Connections to Impact: Maximizing Value at Scientific Conferences

Corey Gerheim - Pittcon

Scientific conferences are more than presentations and exhibits they are catalysts for collaboration, innovation, and growth. Drawing on years of experience in planning and executing global events, this session explores strategies to maximize professional and organizational return on investment. Attendees will gain practical insights into fostering industry-academic partnerships, elevating networking opportunities, and aligning conference participation with strategic goals. Whether you are a researcher, exhibitor, or organizer, you will leave with actionable methods to transform conference attendance into measurable impact.

Abstract # 163 - Paper
10/15/2025 - 9:05 AM - 9:45 AM - Bluebonnet

New Revolutionary Process GC with Capillary Chromatography

John Wasson - Wasson-ECE Instrumentation

Chemical processing plants around the world have complex streams that require complex analyses. Process gas chromatographs (PGCs) can provide many plants with some of this critical on-line data, but too often plants must also rely on laboratory GC analysis as backup. What’s needed is a PGC that can provide repeatable capillary chromatography. It also needs to be built to ATEX or Class I, Div. 2 specifications so that it can be installed in hazardous rated areas. Wasson-ECE’s Eclipse (FID/TCD/PDHID), Neutrino (MSD), and E-VUV (VUV detector) PGCs provide such a solution. These PGCs use convection ovens to drive the performance of capillary column chromatography. The precision of the oven temperature control was proven to demonstrate highly reproducible retention times and peak areas. The Eclipse, Neutrino, and E-VUV PGCs provide single analyzer solutions that deliver results for a diverse range of analytes

Abstract # 164 - Seminar
10/14/2025 - 1:00 PM - 2:00 PM - Hibiscus

FT-IR Spectral Interpretation and Problem Solving

Andrew Schmitz - ThermoFisher Scientific

Fourier Transform Infrared (FTIR) spectroscopy is utilized to study and analyze molecular vibrations.  Depending on characteristics of the molecule such as mass, bonding strength and shape will determine where the FTIR peaks lie in the spectrum. These peaks can determine what functional groups exist along with chemical identification via FTIR spectroscopic libraries. This presentation will give an introduction on FTIR spectral interpretation and using spectroscopic libraries for functional group and chemical identification.

Abstract # 166 - Seminar
10/15/2025 - 1:10 PM - 2:10 PM - Orchid

FTIR /Raman Theory and Sample Handling

Andrew Schmitz - ThermoFisher Scientific

Infrared (IR) spectroscopy is a quick, reliable, non-destructive technique that takes advantage of molecular vibrations to identify and study chemicals. Fourier Transform Infrared (FTIR) spectroscopy is the main method in executing IR spectroscopy. With IR spectroscopy a user can identify compounds, functional groups in organic molecules, interaction between a molecule and its local environment, and perform quantitative analysis such as concentration measurements just to name a few.  There are several techniques in FTIR spectroscopy such as drifts, attenuated total reflectance and transmission.  This presentation will cover the theory of FTIR spectroscopy along with the different sampling techniques and their applications. 

Abstract # 167 - Workshop
10/14/2025 - 2:00 PM - 3:00 PM - Hibiscus

Omnic and Paradigm Software Tutorial for IR/Raman Spectroscopy Software

Cam Macissac - ThermoFisher Scientific

This workshop will cover Omnic software, the popular platform for running Thermo Fisher FT-IR, FT-NIR, and Raman spectrometers. A live software demonstration will be given to highlight features of Omnic, which will include collection of data from a working spectrometer. A live demonstration of TQ software will be given illustrating FTIR, FT-NIR and Raman quantitative and qualitative methods. Suggestions will be given on how to diagnose chemometric methods to ensure they accurately predict. Some pitfalls will be covered to avoid improperly modeled methods.  In addition, an overview of Macros/Basic automated workflow software will be given. This software is designed to build pre-program quantitative predictions. The Macros language can also automate many other software functions, like basic kinetic routines.

Abstract # 168 - Training Course
10/15/2025 - 1:35 PM - 2:20 PM - Wisteria

Leading the Lab: A Science-Driven Approach to Leadership Styles and Managing Laboratory Teams

Tamara Perry - Labtopia, Inc,

Laboratory Managers are often propelled into leadership roles, not by their desire or ability to manage people, but by their deep technical expertise and analytical prowess. Unlike traditional corporate leaders who often thrive on interpersonal dynamics and persuasive communication, Lab Managers are typically more focused, analytical, and process-oriented—valuing precision, data, and logical problem-solving over instinctive people management. Yet, effective leadership is crucial to maintaining high-performing, collaborative, and innovative lab environments. This session will demystify the art of Lab Management by exploring the science behind leadership styles and how they affect team dynamics, productivity, and morale. Attendees will learn how to identify their own leadership tendencies, adapt their approach based on team needs, and apply a data-informed mindset to managing people. Participants will walk away with actionable tools and frameworks to become more confident, intentional, and impactful leaders. Whether you’re leading a research group, managing technicians, or in a more strategic operational role this session will help you align your leadership with your scientific strengths to lead with confidence, inspire with purpose, and build a lab culture where innovation and people thrive.  

Abstract # 169 - Paper
10/15/2025 - 1:50 PM - 2:20 PM - Bluebonnet

Selection and Use of Wasson-ECE Small Devices and Enhancements for Chromatography Optimization

Ona Broadway - Wasson-ECE Instrumentation

Persistent sample handling challenges compromise analytical accuracy and efficiency of many gas chromatography (GC) methods. Laboratory professionals struggle with routine and complex samples requiring specialized conditions and system integration. Wasson-ECE addresses these critical needs through innovative small devices that enhance GC performance. Our standard and custom lab devices eliminate sample handling bottlenecks by accommodating any sample type, frequency, temperature, pressure, or unique requirement. These solutions integrate seamlessly as add-ons to new systems or upgrades for existing gas chromatographs. Laboratories can choose between automated control through chromatography data systems or standalone operation, ensuring optimal workflow integration.

Abstract # 170 - Paper
10/14/2025 - 9:35 AM - 10:00 AM - Iris

Forensic Assessment of Residual Oil from the Pearl Harbor Shipwreck

Jagos Radovic - University of Houston - Center for Petroleum Geochemistry (UH-CPG)
Bryan James - Northeastern University
Robert Nelson - Woods Hole Oceanographic Institution
Christopher Reddy - Woods Hole Oceanographic Institution

More than 80 years after its sinking at Pearl Harbor, the USS Arizona continues to release small amounts of oil, offering a unique window into the long-term fate of submerged petroleum. This study analyzes oil from multiple leak points using bulk and molecular fingerprinting (GC-FID, GC-MS, GC×GC). The oil, a heavy fuel refined from California crude, remains chemically complex and PAH-rich despite decades underwater. Variability among leak points reflects differing weathering, while stable biomarkers enable source attribution. Findings highlight chemical heterogeneity, environmental risks, and broader implications for historic shipwrecks as long-term pollution sources. 

Abstract # 171 - Paper
10/14/2025 - 8:45 AM - 9:15 AM - Iris

Environmentally Friendly Solid Phase Extraction Approach for Multiple Classes of Organic Pollutants Following EPA 8270E

Don Shelly - Don Shelly Consulting, LLC
Arielle Cocozza - UCT

EPA Method 8270E offers an updated, more sustainable approach for analyzing semi-volatile organic compounds (SVOCs), replacing traditional DCM-heavy extractions with solid-phase extraction (SPE). UCT’s proprietary 8270 sorbent, paired with activated carbon, enables broad compound retention, including polar analytes like 1,4-dioxane, while minimizing solvent use and exposure risks. This method supports parallel sample processing and delivers reliable quantification of over 130 target compounds at or below 10 µg/L, including those in the Priority Pollutant, RCRA, and Superfund lists. Performance testing confirmed acceptable precision and recovery for nearly all compounds, and hydrogen was used as a GCMS carrier gas to explore a cost-effective helium alternative. Overall, the SPE method meets EPA QC standards while enhancing lab safety and throughput.

Abstract # 172 - Paper
10/14/2025 - 11:10 AM - 11:35 AM - Floral Hall A2

Technical Update of ASTM D8519, the First Standard Test Method Created for Analyzing Hydrocarbons in Waste Plastic Process Oils

Alex Hodgson - VUV Analytics, Inc

In the continued effort to find sustainable and renewable sources of hydrocarbons, researchers and companies worldwide are actively exploring plastic waste and developing methodologies using pyrolysis technologies to convert waste plastics into usable petrochemical feedstocks. These new processes have been challenging to monitor and optimize with current analytical approaches used for traditional hydrocarbon streams. A new ASTM method, D8519, uses vacuum ultraviolet (VUV) spectroscopy to provide class-based identification and quantitation of hydrocarbons in pyrolysis oils over a broad carbon range. In this presentation we’ll discuss the most recent updates of D8519 as it nears the end of the ASTM process.

Abstract # 173 - Paper
10/14/2025 - 8:25 AM - 8:55 AM - Tulip

GC Column Selection – Tips and Tricks that are NOT Rocket Science

James Pachlhofer - Thermo Fisher Scientific

Gas Chromatography has become a popular, widely used, very dependable, analytical technique.  Key to its popularity has been the use of fused silica, open tubular, separation columns. This presentation is about selection of a suitable column from the sometimes-bewildering variety of columns on the market. Tips and Tricks are discussed from the authors many years of GC application development.

Abstract # 174 - Paper
10/14/2025 - 1:15 PM - 1:35 PM - Daffodil

Expanding ASTM D5623 to include heavier sulfur species

Alan Cummings - Lummus Technology

ASTM D5623 measures sulfur compounds in light petroleum liquids by a gas chromatography and sulfur selective detector up to 230°C.  However, many sulfur species in these boiling ranges are not identified and classified as “unknowns.” Furthermore, sulfur species beyond 230°C are sometimes needed for sour crudes, catalyst performance and tracking environmental compliance.  To expand ASTM D5623, overcoming the chromatographic challenges of separating these heavier sulfur compounds is a challenge. 

In an attempt to expand ASTM D5623, many exotic sulfur species are identified along with analyzing various “out of scope” heavier boiling range hydrocarbons.  This abstract will discuss what is Sulfur Chemiluminescence and the findings from this study.

Abstract # 175 - Paper
10/15/2025 - 12:00 PM - 12:20 PM - Bluebonnet

Handling sampling issues on Gas Chromatography (GC) High Temperature Simulated Distillation

Gabriel Villarreal - Lummus Technology

As technology advances for products in the petrochemical industry, sample issues can arise when it comes to analysis by GC High Temperature Simulated Distillation. A wider range of products such as waste plastic pyrolysis oils and bio derived fuels are just some of the examples of samples encountered. Common issues include inlet, column, and detector contamination.  These challenges can give rise to incomplete elution of the sample, changes in retention times and erratic results.  The causes of these issues and the steps to resolve them are the subject of this paper.

Abstract # 176 - Paper
10/14/2025 - 9:15 AM - 9:35 AM - Iris

Lessons learned in Setting Up EPA 1633 for PFAS Analysis in Leachate Samples

Ninoska Ruiz - Lummus Technology

Abstract # 177 - Paper
10/14/2025 - 2:45 PM - 3:05 PM - Wisteria

A New Way to Measure Octane: Lab & Process with CVCC Autoignition Technology

Connor Douglas - PAC

PAC has developed a new Constant Volume Combustion Chamber (CVCC) analyzer for the measurement of octane through autoignition. The analyzer determines both Research Octane Number (RON) and Motor Octane Number (MON) with excellent correlation to ASTM engine methods D2699 and D2700, while offering superior repeatability and reproducibility. This technology has been implemented in both laboratory and process analyzers, ensuring consistency across applications. Development work is currently underway toward establishing an ASTM standard method.

The CVCC approach enables easier operation and delivers a significant reduction in octane giveaway, providing measurable value for modern refinery operations.

Abstract # 178 - Paper
10/15/2025 - 2:20 PM - 2:40 PM - Wisteria

Shear Happens: Understanding instrumental limitations in rheology testing.

Irene Pena - Lummus Technology

In a perfect world, every sample would behave predictably, every curve would be smooth, and rheometers would deliver instant accurate answers. In reality? Shear happens. This presentation explores some of the limitations of rheological testing, especially when faced with unconventional samples. From issues like shear heating, edge fracture, slipping, and drying, we’ll walk through real-world examples that highlight when to question the data.

Abstract # 179 - Seminar
10/15/2025 - 12:10 PM - 1:10 PM - Orchid

Implementing Raman Spectroscopy into Process Environments

King Chambers - ThermoFisher Scientific

This presentation will cover the theory of Raman spectroscopy and how it can be successfully implemented into various process environments. We will highlight the benefits of using Raman spectroscopy in different sampling modes and explore utilizing chemometric techniques to optimize the results in process monitoring. The presentation will highlight various applications in gas and liquid phase testing, including speciation and quantification. Considerations for successful implementation into various workstreams and hazardous environments will be explored.

Abstract # 180 - Seminar
10/14/2025 - 11:00 AM - 12:00 PM - Hibiscus

Process Raman AIO

King Chambers - ThermoFisher Scientific

This talk will highlight the theory of Raman Spectroscopy and outline several hardware innovations. It will outline the advantages of using Raman Spectroscopy in process and benchtop applications.   The presentation will illustrate various accessories and Chemometrics used to solve problems using Raman.

Abstract # 181 - Paper
10/15/2025 - 12:20 PM - 12:40 PM - Bluebonnet

Polypropylene - Understanding the Effects of Impurities in Propylene Feed and the Analysis of these Components

Dion Boddie - Lummus Technolgy

There are several impurities that are of consequence in propylene feed for polypropylene. Some of the specific impurities are CO, H2, propylene oxides, sulfur, oxygenates, etc.

The integrity of the feedstock is a prerequisite for maintaining a consistent, profitable, and high-quality production chain. This presentation will be over the analysis of these impurities.

Abstract # 182 - Paper
10/14/2025 - 9:30 AM - 9:55 AM - Hibiscus

Extending Insights to High-Boiling Fractions by Correlating CHNSO Composition with Oxygenates in Low-Boiling WPPOs

Amey Gonzalez - Lummus Technology

Accurate oxygen characterization is critical for evaluating waste plastic pyrolysis oils (WPPOs). Oxygen can enter from PET and other oxygenated plastic feedstock, residual water, secondary reactions during pyrolysis, or non-plastic residues like cardboard and food waste. Oxygen-bearing compounds in WPPOs influence acidity, corrosion, instability, and catalyst deactivation, which limit the direct integration into refining and petrochemical operations. A variety of methods exist for characterizing oxygen, but none provide a complete oxygen profile. CHNSO analysis is one of the most practical techniques: it is fast, applies across the full boiling range, and can measure higher-boiling fractions that other methods cannot but often leaves a portion unaccounted for. ASTM D7423, by contrast, provides molecular-level speciation, but is limited to fractions boiling below 200 °C. In this work, we compare CHNSO and ASTM D7423 and extend insights to high-boiling fractions by correlating bulk CHNSO composition with oxygenate content in low-boiling oils.

Abstract # 183 - Paper
10/14/2025 - 2:50 PM - 3:20 PM - Tulip

On-line Raman Gas Analysis in Syngas and Hydrogen Production

Susan Harris - Endress+Hauser, Inc.

On-line process measurement of the composition of gas streams in refining, ammonia, and methanol plants is essential for the optimal operation of different process units within these facilities.  Process analyzers based on gas chromatography, mass spectrometry, and electrochemical technologies are commonly used in these facilities.  However, process conditions for certain streams present major challenges for these traditional technologies.  Techniques based on optical spectroscopy, including near-infrared (NIR), infrared (dispersive and Fourier transform), and Raman spectroscopy, can provide analysis solutions for these challenging stream conditions.  Raman spectroscopy is particularly useful for streams containing homonuclear diatomic gases, such as H2 and N2. The simpleness of the gas Raman technology gas methods verses model based chemometrics analysis will be shown. The end user can change stream compositions easily, change measurement cycle times, and recalibrate the system as needed if the process changes.

Abstract # 184 - Paper
10/14/2025 - 2:50 PM - 3:35 PM - Iris

From Hours to Seconds - Process Raman is Revolutionizing Sour Water Monitoring

Dakota Merriles - HORIBA Instruments Incorporated

Sour water streams in petroleum refining pose operational and environmental challenges, with fluctuating H2S and NH3 levels affecting efficiency and compliance. Traditional ammonium sulfate monitoring depends on manual titrations, creating delays and data gaps. HORIBA's Process Raman technology offers continuous, real-time monitoring of H2S, NH3, and ammonium sulfate salts directly in the process line. By providing immediate visibility, refiners can automate adjustments, optimize neutralization, and avoid costly upsets. This presentation will show how leading refiners use HORIBA Process Raman to enhance reliability, cut costs, and deliver measurable ROI through improved operational performance.

Abstract # 185 - Paper
10/14/2025 - 12:40 PM - 1:25 PM - Iris

Determination of sulfur and nitrogen in Waste Pyrolysis Plastic Oil (WPPO) using UVF & Chemiluminescence technology

Mina Masaeli - PAC

In comparison to mechanical and biological technologies, plastic pyrolysis as part of a chemical recycling drew a great attention for its economic and environmental benefits. It can convert plastic waste into WPPO which can be used as a fuel or valuable raw petrochemical materials. A sample WPPO is shown in Figure 1. Pyrolysis is a possible route to utilize non-biodegradable materials as several countries are struggling with managing plastic waste. Pyrolysis of mixed plastic waste generates 50% less CO2 compared to energy recovery i.e., incineration. In addition, pyrolysis oil has several aromatic and aliphatic chemical components. Those components are quite diverse in their chemical properties as they may be cyclic, saturated, non-saturated, having long carbon chains and containing different elements such as sulfur, nitrogen, and oxygen. Analysis of the chemical elements in the WPPO is critical to value its environmental impacts. Sulfur and nitrogen can change the chemistry of the water by acidifying it and fertilize the soils. Consequently, it can negatively impact on the plants and the aquatic life. Moreover, sulfur and nitrogen can negatively impact oil refining processes by its corrosive effect and poisoning of the catalysts. Thus, it is of a great importance to quantify the sulfur and nitrogen content in the conventional and alternative energy sources.

Abstract # 187 - Paper
10/14/2025 - 1:10 PM - 1:30 PM - Floral Hall A2

Nontarget Analysis of WPPO by GCxGC-HRTOFMS

Christina Kelly - LECO Corporation
John Hayes - LECO Corporation
Joe Binkley - LECO Corporation

Waste plastic pyrolysis oils (WPPO) are of growing interest as a source of more environmentally friendly alternative feedstock for producing chemicals and fuels. However, as WPPO are often produced from diverse sources with varying degrees of purity and cleanliness, more comprehensive analysis becomes necessary as compounds that are not typically found in traditional petrochemical sources can be present in these oils. Targeted screening is not enough to fully safeguard processes from potentially undesirable contaminants, which can reduce efficiency of reactions and foul production lines. To fully understand the chemical composition of such complex mixtures, nontargeted analysis is essential. This presentation focuses on analysis of WPPO using an unparalleled nontarget discovery tool: comprehensive two-dimensional gas-chromatography coupled to high-resolution time-of-flight mass spectrometry (GCxGC-HRTOFMS) capable of multi-mode ionization with electron ionization (EI), positive chemical ionization (PCI), and electron-capture negative chemical ionization (ECNI). This multidimensional analysis provides not only the enhanced chromatographic resolution of GCxGC, which separates individual oil components chromatographically in an easy-to-comprehend layout of fairways of similar chemical structures, but also the powerful analyte identification abilities of complementary ionization modes that can provide both detailed structural information and the high mass-accuracy molecular formulae for individual species.

Abstract # 188 - Paper
10/14/2025 - 1:00 PM - 2:00 PM - Floral Hall A1

Next Generation Lab Operations using AI and Machine Learning

Ben Zumwalt - Agilent Technologies

Today’s laboratories are under increasing pressure to do more with less — improve efficiency, eliminate downtime, increase throughput, and lower costs. Agilent CrossLab Connect is addressing that need by transforming how labs operate with real-time insights & alerts, live dashboards, centralized asset visibility, smart reports, performance tracking, and capacity monitoring. This session will explore how CrossLab Connect empowers labs—in sectors like petrochemicals, contract testing, government, and academia—to streamline operations, increase throughput, decrease turnaround time, minimize the effects of disruption, and increase lab profitability. Attendees will learn how to leverage cloud-based AI analytics, proactive & predictive maintenance, and operationalize live power-based monitoring to align lab performance with business goals. Whether you're managing a single site or a global network, discover how CrossLab Connect can help you get results.

Abstract # 189 - Paper
10/14/2025 - 8:50 AM - 9:20 AM - Floral Hall A1

How to Choose Proper FTIR Spectroscopic Techniques to Analyze Petroleum Products

Sofia Givelos - Agilent Technologies

Fourier transform infrared (FTIR) spectroscopy is a versatile tool used to characterize petroleum products by quantifying additives, detecting contaminants, monitoring degradation byproducts and fighting adulteration. FTIR spectroscopy has become a widely used technique for quickly assessing petroleum product characteristics, and yet many people don’t fully understand how it works and how to make it more efficient. Due to the different properties and testing goal, it is critical to choose the proper technique to facilitate the analyze of petroleum products. This presentation provides a comprehensive introduction to the FTIR testing techniques and how to choose the proper FTIR techniques to satisfy different petroleum product analysis.

Abstract # 190 - Paper
10/14/2025 - 8:00 AM - 8:20 AM - Floral Hall A1

ASTM D5769 Using the Agilent 8850 GC and 5977C GC/MSD with Hydrogen Carrier – Speed Meets Small Formfactor

Scott Hoy - Agilent Technologies

Abstract # 191 - Paper
10/15/2025 - 9:00 AM - 9:20 AM - Floral Hall A1

Achieving Superior Chromatographic Data in the GC/SCD Analysis of ASTM D5623-Relevant Sulfur Compounds: Best Practices and Insight

Kyra Murrell - Agilent Technologies
Brent Casper - Agilent Technologies

Gas chromatography (GC) coupled with Sulfur Chemiluminescence Detector (SCD) is a powerful analytical technique for the identification and quantification of volatile sulfur compounds relevant to ASTM D5623. The Agilent 8890 GC with the 8355 SCD delivers a linear and equimolar response across a wide range of sulfur-containing analytes. This presentation highlights the expected performance for 19 discrete sulfur compounds and outlines best practices to consistently achieve superior chromatographic data.

Abstract # 192 - Paper
10/14/2025 - 8:20 AM - 8:50 AM - Floral Hall A1

Optimizing Elemental Analysis of Oils and Organic Solvents by Smart ICP-OES

Dr. Sima Singha - Agilent Technologies

Direct elemental analysis of organic solvents by an ICP-OES can be challenging for several reasons ranging from plasma stability, carbon deposition on the injector and torch, and complex spectral interferences from carbon emission lines. However, the analysis of neat organic solvents in the Petrochemical, Lithium Ion Battery, and Food Industry is common as it is an alternative to the time-consuming digestion/ashing methods, which may have significant dilution factors that elevate the detection limits. This talk will discuss how a Smart ICP-OES like the Agilent 5800/5900 instruments can easily overcome these issues through selection of proper sample introduction system, optimized method parameters, and intelligent background and interference correction techniques.

Abstract # 193 - Paper
10/15/2025 - 8:00 AM - 8:30 AM - Floral Hall A1

Fast, Reliable and Versatile – Can Agilent Micro GC 990 Really Deliver It All?

Felipe Chagas - Agilent Technologies
Kelly Beard - Agilent Technologies

What if gas analysis could be faster, more reliable, and versatile, all in a single instrument? Rapid and accurate gas analysis is critical across multiple markets, including industrial process monitoring, hydrogen fuel quality control, and environmental applications. The Agilent Micro GC 990 combines fast analysis times, reliable performance, and versatile multi-application capability in a compact, field-deployable platform. Drawing on real-world case studies from numerous Micro GC installations, this presentation highlights the instrument’s technical innovations, accessory options, and practical applications that make the Micro GC 990 a flexible solution for laboratory, online, and mobile gas analysis. Join this session to discover how the Agilent Micro GC 990 is redefining gas chromatography, delivering fast, reliable, and versatile solutions that meet the evolving demands of modern industries.

Abstract # 194 - Paper
10/15/2025 - 8:30 AM - 9:00 AM - Floral Hall A1

Sensitive Detection of Volatile Fatty Acids in High Ionic Water Matrix using Ion Chromatography hyphenated with Single Quad Mass

Sue Dantonio - Agilent Technologies
Jay Gandhi - Metrohm USA

Ion Chromatography has been an analytical tool since 1975. At least for the last two decades, ion chromatography has been hyphenated with mass spectrometer (IC-MS). Since then it has enabled the scientists to expand the horizon of analytical science. In this poster presentation, authors will highlight several applications using IC-MS as tool for advanced detection, especially highlighting Volatile Fatty Acids (VFA) in high ionic water matrices.

Abstract # 195 - Paper
10/14/2025 - 12:00 PM - 12:40 PM - Iris

Advancements in Combustion-Ion Chromatography: Efficiency, Sensitivity, and Scope

Carl Fisher - Thermo Fisher Scientific

Combustion-Ion Chromatography (C-IC) has been a valuable analytical tool since its inception in the 1980s, originally used for monitoring sulfur and halogens in fuels and ores. Recently, C-IC has gained prominence as a powerful technique for screening per- and polyfluoroalkyl substances (PFAS) contamination in waste streams and consumer products. This seminar will provide an overview of C-IC, emphasizing its advantages such as automation, sensitivity, and efficiency. Additionally, the discussion will cover the scope and limitations of C-IC across various applications, with a particular focus on its current use in environmental and industrial analysis.

Abstract # 197 - Paper
10/14/2025 - 9:25 AM - 9:55 AM - Floral Hall A2

Advancing Fluorine Quantification in WPPO: A Novel Combustion-AAS Approach

Jesus Acapulco - Analytik Jena
Jesus Acapulco - Analytik Jena
Jess Gantt - Analytik Jena
Simone Moos - Analytik Jena
Olga Weisheit - Analytik Jena

The shift from fossil-based to alternative feedstocks such as waste plastic has introduced new contaminants into refinery processes. Among these, fluorine (F) is a major concern. Currently, combustion ion chromatography (CIC) is the standard method. However, it is costly to purchase and operate, while analysis times are long limiting sample throughput.

This presentation introduces a novel approach for determining fluorine in waste plastic pyrolysis oil (WPPO). The method involves combustion of the WPPO sample, after which halogens are quantitatively captured in an absorber solution. This solution is then analyzed using a high-resolution continuum source atomic absorption spectrometer. The instruments used in this process are called ICprep, which features self-optimizing combustion, and contrAA 800 G, which is also suitable for metal analysis and can handle smaller sample volumes than ICP-OES.

We demonstrate that CIC and the novel “ICprep + contrAA” method yield comparable fluorine concentrations in WPPO. Additionally, sample throughput increases by a factor of 3 using the new approach.

Abstract # 198 - Paper
10/14/2025 - 12:30 PM - 1:00 PM - Floral Hall A1

Analysis for Impurities in Fuel Cell Grade Hydrogen by Gas Chromatography

Senia McPherson - Bureau Veritas Fuels Division
Shannon Coleman - Agilent Technologies

In this presentation we will describe the successful development of gas chromatography solutions for the analysis of trace impurities in fuel cell grade hydrogen in collaboration with Agilent Technologies

Abstract # 199 - Paper
10/14/2025 - 9:20 AM - 9:50 AM - Floral Hall A1

Low Level, ppb, Determination in Refined Oils using the Agilent VDV ICP System and Muli-Variate Matix Correction

Paul Krampitz - Agilent Technologies

Wear metals in oil is a common application using ICP.  The levels are relatively high and most needs are for trend analysis.  However, this presentation will focus on single digit ppb analysis in refined and distilled oils.  Presentation will include data and tips to run low level analytes in an organic matrix.  We will discuss how to remove elevated background and increasing the signal to noise ratio in organics.

Abstract # 202 - Paper
10/15/2025 - 12:40 PM - 1:00 PM - Bluebonnet

Fit-for-purpose chromatography in petrochemical monitoring and characterisation

Matthew Edwards - SepSolve Analytical
Laura McGregor - SepSolve Analytical
Khaled Murtada - SepSolve Analytical
Jonathan Grandy - SepSolve Analytical
Anthony Buchanan - SepSolve Analytical

Petrochemical analysis requires fit-for-purpose workflows, as no single GC method can address the full range of operational demands. For process monitoring, speed and robustness are vital. Hyper-fast GC, enabled by flow-field thermal gradient technology, delivers sub-minute cycle times with sharp peaks, enabling near real-time detection of refinery upsets. Where deeper compositional knowledge is required, GC×GC provides unrivalled resolving power – supporting group-type quantification with FID or confident identification of trace components with TOF MS. This presentation highlights how hyper-fast GC and GC×GC complement one another, supported by integrated software to streamline method development and decision-making.

Abstract # 204 - Paper
10/14/2025 - 11:35 AM - 11:55 AM - Floral Hall A2

Oxygen & CHNS Elemental Analysis of Waste Plastic Pyrolysis Oil: Challenges, Solutions, and Standardization

Moritz Kreinbihl - Elementar Analysensysteme GmbH
Jan Hartwig - Elementar Analysensysteme GmbH

Elemental analysis of carbon, hydrogen, nitrogen, sulfur (CHNS) & oxygen is essential for understanding the composition and fuel potential of Waste Plastic Pyrolysis Oil (WPPO). These parameters guide quality assessment and downstream processing compatibility. WPPO, however, poses analytical challenges due to its complex and variable composition, particular for oxygen determination at very low concentrations. Practical insights are shared on addressing these challenges, supported by our solution that combines optimized instrumentation with tailored methodologies for robust, reproducible results. Remaining obstacles in standardization are discussed, underscoring the urgent need for reliable norms to ensure harmonized WPPO analysis.

Abstract # 207 - Paper
10/15/2025 - 1:00 PM - 1:25 PM - Bluebonnet

GCVUV Simulated Distillation

Dan Wispinski - VUV Analytics
Derrell Sloan - VUV Analytics

A new gas chromatography with vacuum ultraviolet absorption spectroscopy detection (GC-VUV) technique for determining simulated distillation of middle distillates will be introduced. Traditional gas chromatography simulated distillation uses a non-polar column to elute components in order of boiling point. The known boiling points of n-paraffins are used to calibrate the time axis. The boiling range distribution of a sample run under the same conditions can thus be obtained. GC FID simulated distillation uses cumulative time slices to determine BP distribution and cut points. ASTM D8267 (aromatics in jet fuel) and ASTM D8368 (aromatics and FAME in diesel fuel) are specification approved GCVUV methods that use time interval deconvolution to determine hydrocarbon types. These GCVUV sequential time intervals contain holistic hydrocarbon type quantitative information. A new GCVUV software feature allows the calculation of BP distribution and cut point intervals without modification of the standard GCVUV instrument parameters. The BP data is available in total % off by mass and volume. Additionally, a saturates only and aromatics only BP distribution can also be obtained. GCVUV BP distribution data will be compared to ASTM D2887 BP distribution data from jet fuel and diesel fuel proficiency test samples.

Abstract # 208 - Paper
10/14/2025 - 8:00 AM - 8:25 AM - Tulip

Quantitating Aromatics in Jet Fuel –the ASTM Multi-Method Study Outcomes

Dan Wispinski - VUV Analytics
Alex Hodgson - VUV Analytics

ASTM has undertaken a large precision study for aromatics in jet fuels.  The principal objective is a new precision statement for the referee ASTM D1319 FIA method.  The study’s secondary objective is a D6708 bias evaluation of four alternate aromatics methods against the D1319 method.  Samples common to all aromatics methods are used in the studies.  This presentation will present the D1319 outcome and discuss the results of the clear winner of the alternate aromatics methods – the ASTM D8267 Standard Test Method for Determination of Total Aromatic, Monoaromatic and Diaromatic Content of Aviation Turbine Fuels Using Gas Chromatography with Vacuum Ultraviolet Absorption Spectroscopy Detection (GC-VUV).  A new precision statement and expanded scope ranges for D8267 have been achieved allowing D8267 to be used for aromatics at the 0.5% mass level in synthetic alternate jet fuels (SATF) and for diaromatics (naphthalenes) in conventional jet fuel.  The presentation will also discuss a revision with precision for isopropylbenzene (cumene), an important compound for carcinogenic classification in Europe.

Abstract # 209 - Paper
10/15/2025 - 1:25 PM - 1:50 PM - Bluebonnet

GCVUV Methods – Future Forward

Dan Wispinski - VUV Analytics
Sean Jameson - VUV Analytics

Forward Abstract Standard methods, specifications and regulations are live documents – constantly changing to adapt to new technology and industry requirements.  VUV Analytics must constantly strive to meet the need to revise, update and produce new methods.  This presentation will focus on future revisions and new GCVUV methods.  The interlaboratory study (ILS) process to obtain precision (repeatability and reproducibility) will be explained.  The application of the ILS process to GCVUV method D8071 to expand benzene and aromatics ranges and include aviation gasoline in the scope will be discussed.  A description of the ILS for GCVUV method ASTM D8519 hydrocarbon types in waste plastic pyrolysis oil will be provided.  Updates on ASTM D8267 aromatics in jet and ASTM D8368 revisions will also be discussed.  Standardization is a consensus process so come prepared to have an interactive discussion on your needs for existing and future methods using VUV technology.

Abstract # 212 - Paper
10/15/2025 - 9:05 AM - 9:25 AM - Wisteria

"Now We're Cooking with Gas!" Pyrolysis GCxGC-MS of Polyolefins.

Robert Cody - JEOL USA, Inc.

Thermal desorption and pyrolysis (TD/PY) is a valuable method for materials analysis with gas chromatography and mass spectrometry (GC-MS).  Polymers are identified by their pyrograms and pyrolysis products. GCxGC-MS is a useful approach to monitor pyrolysis reactions on a small scale and characterize the products of pilot-plant pyrolysis. High-resolution mass spectrometry and soft ionization methods (chemical ionization, photoionization, and field ionization) are essential tools for the identification of unknowns in these complex mixtures.  Taking a completely different perspective, soft ionization and pyrolysis with a deactivated fused silica column shows high-molecular-weight pyrolysis products that are not detectable by GC-MS or GCxGC-MS

Abstract # 213 - Paper
10/14/2025 - 2:15 PM - 3:15 PM - Bluebonnet

How to convert your ISO 9001- QMS into a Profitability Engine

Wali Alam - QUALITY INSTITUTE OF AMERICA, INC.

Since 1987, tens of thousands of companies have implemented Management Systems based on ISO 9001 and related standards (13485, API, 17025, 16949, AS 9100 and others). Most of these are static. They are not moving upwards.   This Paper will dig deeper into the structure and requirements of the Standard, which after all is focused on Continuous Improvement. It will show how and where to collect data and processes that can help identify areas of opportunities. It will then show how to employ simple but powerful tools to systematically and continuously improve productivity and profitability.

Abstract # 214 - Paper
10/14/2025 - 2:25 PM - 2:50 PM - Iris

Phosgene Analysis in Ambient Air – Theoretical to Field Application

Monique Mahoney-Ashberry - Process Insights, Inc.
Jenee Jacobs - Process Insights, Inc.
Chris Williams - Process Insights, Inc.
Chuck DeCarlo - Process Insights, Inc.

Phosgene (COCl₂) is a highly toxic industrial chemical of significant concern in both occupational and environmental monitoring. This presentation highlights the development and implementation of a quadrupole mass spectrometry (QMS)–based installation for the detection and quantification of phosgene in ambient air. Emphasis is placed on the transition from controlled laboratory case studies using industrial QMS systems to successful field deployment. Key aspects include instrument configuration, calibration strategies, sensitivity in real-world conditions, and sample handling. The results demonstrate the viability of QMS as a robust, real-time monitoring solution for phosgene in ambient air across diverse operational environments.

Abstract # 215 - Paper
10/15/2025 - 2:20 PM - 2:50 PM - Bluebonnet

Rethinking Routine: Practical Strategies to Boost GC Productivity

Whitney Dudek-Salisbury - Restek Corporation

Laboratories are under increasing pressure to enhance productivity and sustainability while simultaneously reducing operational costs. Achieving these goals can be challenging, but even small, strategic changes can yield significant improvements when the appropriate techniques are applied. Approaches such as optimizing column selection to shorten analysis times, transitioning from helium to hydrogen as a carrier gas, or reducing helium consumption can effectively lower costs and boost efficiency. This presentation explores practical, incremental strategies that empower laboratories to make a substantial impact through manageable, low-barrier adjustments.

Abstract # 216 - Paper
10/15/2025 - 2:50 PM - 3:10 PM - Bluebonnet

Head-to-head comparison of DHA to ASTM D8369 Verified Hydrocarbon Analysis (VHA) Using Helium and Hydrogen Carrier Gases.

Ryan Schonert - VUV Analytics

Verified Hydrocarbon Analysis (VHA, ASTM D8369) offers an alternative to traditional DHA that delivers better accuracy and precision - through vacuum ultraviolet (VUV) spectral verification and an automated analysis - in a fraction of the time. A recent study directly comparing VHA and DHA highlights the ease of use and superior results obtained from VHA. Additional comparisons were performed for each method using hydrogen carrier gas, demonstrating VHA’s analytical flexibility with spectrally verified results.

Abstract # 217 - Paper
10/14/2025 - 9:15 AM - 9:35 AM - Tulip

Simple and Effective Measurement of Water Content in Fuels Using GC-LUMA™

Annika Dombrowski - VUV Analytics

Water in petrochemical and refinery streams can cause problems for processors. Monitoring water in petroleum from an upstream source to the downstream processing plant is critical to insure uninterrupted operation. While water analysis is normally done by Karl Fischer titration, matrix effects from sulfurs and oxygenates may interfere with the titration and yield inaccurate results. Furthermore, the use and disposal of Karl Fischer reagents contribute to increased costs and environmental burden. A GC analysis paired with the LUMA™ detector provides a simple solution to measure trace water in fuels while bypassing matrix interferences and reducing the need for additional chemical reagents to obtain results.

Abstract # 218 - User Group
10/15/2025 - 12:15 PM - 1:15 PM - Iris

Automating your Current QMS (ISO, API, AS, IATF and Others)

Wali Alam - QUALITY INSTITUTE OF AMERICA, INC.
Golam Alam - QUALITY INSTITUTE OF AMERICA, INC.

Since 1987, tens of thousands of companies have implemented Management Systems based on ISO 9001 and related standards (13485, API, 17025, 16949, AS 9100 and others). Even in these automated times, most companies are content with manual systems where humans send e-mails, track activities, monitor performance, and take corrective actions, etc.   This presentation will show how to build and use a computerized system that will assign tasks, monitor and manage execution, measure performance, keep records, vastly reduce need to audit etc. Most of all,  assist in making powerful decisions with AI.

Abstract # 221 - Paper
10/15/2025 - 9:05 AM - 9:30 AM - Iris

Critical Considerations for Successful In Situ Liquid Process Sampling for Spectroscopy

Ryan Lerud - Process Insights
Chuck DeCarlo - Process Insights

A sample interface that fouls or otherwise provides inconsistent or inaccurate measurements provides little benefit for process quality applications in oil refineries and downstream chemical manufacturing. The selection of the sampling interface needs careful attention to ensure the proper function of the analyzer. Considerations include material compatibility of wetted parts, temperature and pressure ratings, serviceability, flow requirements (Reynolds number and density), and direction of flow relative to the optical path. Discussion will focus on the fiber optic-based process spectroscopy of semitransparent liquids suitable for transmission measurements, with specific examples from a diesel fuel blending process, and from a synthetic fiber manufacturing facility.  When considering a fit-for-purpose NIR or UV/VIS sample interface, care must be taken to ensure the vendor design constraints match your requirements. Differences between the sample interface in the lab and the in situ probe can cause the disagreement between the lab and the process. 

Abstract # 222 - Paper
10/14/2025 - 8:00 AM - 8:25 AM - Iris

Process Analyzers for Carbon Capture Utilization and Sequestration (CCUS) Control and Compliance

Chuck DeCarlo - Process Insights

Liquid and gas sampling and analysis is critical to the successful control of Carbon Capture, Utilization and Sequestration (CCUS) processes and for accurately reporting the amount of carbon successfully captured. Here we’ll discuss how several analyzer technologies are used at CCUS sites, including mass spectrometers, Fourier Transform Infrared (FTIR), Near Infrared (NIR), and Cavity Ring Down Spectroscopy (CRDS) analyzer systems. We’ll review where these technologies are deployed, and how the site uses the data, as well as what factors for sampling and analysis are most critical for operational efficiency and tax credit reporting.

Abstract # 225 - Paper
10/14/2025 - 1:00 PM - 1:20 PM - Wisteria

Biogenic carbon content measurement from solid and liquid samples

Ari Lehmusvuori - Hidex Oy

The Hidex Biofuel Method, a direct liquid scintillation counting (LSC) approach for determining biogenic carbon in fuels without a fuel-specific background sample. The mix-and-measure method combines TDCR output with an external-standard quench parameter to reliably predict background and counting efficiency for each unknown. Samples are prepared by mixing fuel with scintillation cocktail and counted in Hidex 300SL or ULLA TDCR instruments. Across fuels and blends spanning ~1–100 bio-%, results matched accelerator mass spectrometry, with detection limit down to ~1 bio-%. In addition, solid and strongly coloured liquid samples can be measured using Hidex Oxidizer and ULLA LSC counter.

Abstract # 226 - Paper
10/15/2025 - 8:45 AM - 9:05 AM - Iris

New requirements in asphaltene stability and compatibility measurement of crude oil and marine fuel oils

Jaakko Lehtinen - Auramarine Ltd

Importance of stability and compatibility measurement has raised its head again lately both in refinery and marine industries. Oil supply disruption can be caused for example by pandemic or political conflict leading refineries facing variance in crude oil. On the other hand, marine fuel has undergone a big change with the implementation of maximum 0,50 % sulfur in 2020. PORLA stability and compatibility analyser can be used in several applications in refineries. The asphaltene precipitation point can be accurately determined according to ASTM D7112. The titration and optical detection are fully automated requiring only minimal sample preparation from the user.

Abstract # 227 - Training Course
10/14/2025 - 2:15 PM - 2:50 PM - Tulip

Varied Introduction of Polymers to a GC-MS using a Multi-functional Pyrolysis System

Karen Sam - CDS Analytical

Gas chromatography (GC) may not be the natural choice for polymer analysis, unless the analyst adds a pyrolyzer, which uses thermal energy to activate bond cleavage, turning non-volatile material into volatile fragments. Furthermore, a pyrolyzer that can perform other types of thermal sampling, such as thermal desorption, dynamic headspace, sampling reactant atmospheres, and even how a polymer changes under UV exposure, can enhance a GC’s functionality to better understand any polymeric material. This training course will cover different analytical techniques using a pyrolyzer that has many functionalities.

Abstract # 228 - Paper
10/14/2025 - 9:05 AM - 9:25 AM - Floral Hall A2

Supercritical Fluid Chromatography with Flame Ionization Detection (SFC-FID) - Providing Analytical Solutions for the Fuel Product

Jody Clark - Selerity Technologies

Based on the established ASTM standard testing methods, the benefits of “group-type” separations by supercritical fluid chromatography have been recognized as a viable technique. It can be utilized for solutions to identify the new generation of fuels, including Pyrolysis Oils. Analytical techniques are needed to characterize the resulting product from the pyrolysis process. In this presentation, I will discuss a hybrid method between ASTM D5186 and ASTM D6550 for a “group-type” separation of pyrolysis oils made from recycled plastics. The sample will be grouped into saturates, olefins, aromatics and polynuclear aromatics.

Abstract # 229 - Paper
10/14/2025 - 9:35 AM - 9:55 AM - Tulip

D2425-Supercritical Fluid Chromatography with Flame Ionization Detection Coupled to a Quadrupole Mass Spectrometer (SFC-FID-MS)

Jody Clark - Selerity Technologies

D7566 specifies the properties of selected hydrocarbon types (paraffins, cycloparaffins, and aromatics) for renewable aviation fuels to be measured by ASTM D2425.  D2425-19 is an analytical technique using mass spectrometry (MS). The separation is not well-defined and has proven difficult. D8305 is accepted in D7566 for the measurement of aromatic hydrocarbons in aviation turbine fuels. A simple modification can be made to D8305 to split the flow eluting from the column to the FID, for the mass percent and the MS for the mass spectrum used in the calculations for D2425. The SFC-FID-MS will be discussed for D2425.

Abstract # 230 - Seminar
10/14/2025 - 8:20 AM - 8:50 AM - Daffodil

A Novel GC-Combustion-MS with Isotopic Labelling Technique for the Analysis of Oxygenates in Fuels and Biofeedstocks

Tyler Roberts - Shimadzu Scientific Instruments

Oxygenates are critical markers of feedstock quality, process performance, and product stability across fuels, chemical recycling, and biobased materials. Yet their detection remains difficult. Complex matrices and diverse structures challenge traditional tools like O-FID and conventional MS, which often lack equimolarity, selectivity, or matrix robustness.  This talk presents new data generated using the ELEM-SPOT™ system—a GC-Combustion-MS platform employing isotopically labeled oxygen (¹⁸O₂) during combustion for equimolar, compound-independent oxygen quantification. Coupled with full MS structural characterization, the approach enables both accurate quantitation and untargeted identification of oxygenates, offering new process insight and improved control for advanced fuel and chemical workflows. 

Abstract # 231 - Paper
10/14/2025 - 1:35 PM - 1:55 PM - Daffodil

Ion Chromatography Applications for the Energy Market – Robust, Sensitive and Flexible Solutions

Evgenia Barannikova - Shimadzu Scientific Instruments

Ion chromatography (IC) remains a primary technique for analyzing contaminant ions and other charged particles with critical relevance for Energy applications. This presentation highlights IC as a robust and reliable solution. With increasing biofuel demand, IC is a convenient technique to monitor chloride and sulfate in fuel ethanol utilizing ASTM D7319. Additionally, analysis of anions in engine coolants with ASTM D5827 demonstrates the benefits of a UV detector for complex matrices and improved detection limits. Finally, the utility of IC in a rapidly growing Li-ion battery market is demonstrated by analysis of electrolytes, their degradation products, and recycled battery materials. 

Abstract # 232 - Seminar
10/14/2025 - 9:20 AM - 9:50 AM - Daffodil

ASTM D8110: Determination of Trace Elements in Petroleum Products Using ICP-MS

Jon Peters - Shimadzu Scientific Instruments

Metal elements in petroleum products must be precisely monitored to prevent catalyst poisoning, ensure product quality, and minimize environmental impact from emissions. ICP Optical Emission Spectrometry (ICP-OES) is traditionally used, but increased sensitivity demands necessitate ICP Mass Spectrometry (ICP-MS) for trace elemental analysis. ICP-MS analysis in an organic matrix can prove to be an analytical challenge. In this presentation, we will cover practical considerations for metal analysis by ICP-MS in organic fuel matrices, including suppression for both polyatomic interferences and carbonization. A standard configuration was utilized to analyze diesel and light petroleum distillates according to ASTM D8110.  

Abstract # 233 - Seminar
10/14/2025 - 8:50 AM - 9:20 AM - Daffodil

Advances in Software for DHA and PONA Analysis – Improved Compound Identification for Simplified Workflows.

Thy Nguyen - Shimadzu Scientific Instruments

DHA and PONA analysis offers valuable insights into fuel quality and blending characteristics. However, identification and classification of these components is time-consuming and complex. PONASolution is a fully integrated software add-on designed to streamline DHA data analysis. This talk highlights features such as built-in retention index libraries for multiple ASTM methods and tools for compound identification support, multi-dataset summary reporting, and efficient data management. All peak integration parameters, identification settings, and results are stored in a single data file. This enables a seamless, end-to-end analytical workflow without the need for cross-platform data transfer, facilitating laboratory efficiency and reducing workflow complexity. 

Abstract # 234 - Seminar
10/14/2025 - 12:00 PM - 12:45 PM - Daffodil

Total Organic Carbon and Total Nitrogen: Hardware Options for Maximum Performance

Ricky Frnka - Shimadzu Scientific Instruments

Shimadzu is the world’s leading manufacturer of total organic carbon analyzers. The TOC-L analyzers are customizable, robust, and sensitive, making them suitable for a variety of applications including water monitoring in petrochemical industries. In this presentation, we will share how Shimadzu TOC can (1) Increase productivity with a combination of robust hardware and Shimadzu’s all new LabSolutions TOC Software; (2) Expand analysis capabilities for difficult matrices using specialized hardware for samples with high suspended solids, high salt, halogens, or dirt and soil (3) Replace traditional Total Kjeldahl Nitrogen (TKN) measurement with a safer, faster, and more accurate instrumental analysis. 

Abstract # 235 - Paper
10/15/2025 - 9:25 AM - 9:50 AM - Wisteria

Full Flow Ahead: Flow-Modulated GCxGC Without Splitting on a Quadrupole Mass Spectrometer

Kirk R. Jensen - JEOL USA, Inc.

In typical flow-modulated GCxGC-MS, the GC flow must be split prior to introduction into the MS, because the pumping capacity of the MS can't handle the high flow rate.  Splitting GC flow increases the complexity of the measurement, and may be undesirable when maximum sensitivity is required.  Flow-modulated GCxGC was tested without flow splitting on a quadrupole MS that can accept a high flow rate.  Results detailing the effectiveness of the method will be presented, as well as its application to petroleum samples.

Abstract # 236 - Seminar
10/14/2025 - 8:00 AM - 8:20 AM - Daffodil

ASTM D1840 & D6258 – Easily and Confidently Quantify Aromatics and Dyes in Fuels with One UV-Vis Spectrometer

Liang Zhao - Shimadzu Scientific Instruments

UV-Visible spectrophotometry is critical to laboratories conducting fuel quality assessments due to speed, sensitivity, flexibility, and low costs. Naphthalene contributes to combustion efficiency but is also a known precursor to soot emissions, prompting the development of ASTM D1840.  Solvent Red 26 is used to differentiate off-road diesel fuel for tax and regulatory enforcement. ASTM D6258 specifies a second derivative UV-Vis method to confirm presence and concentration. This talk details how UV-Vis spectrophotometry is used for precise execution of both ASTM D1840 and D6258, with detailed method parameters, instrument configuration, derivative spectral processing, and calibration workflows, system reproducibility, and linearity. 

Abstract # 238 - Seminar
10/14/2025 - 12:45 PM - 1:15 PM - Daffodil

Quantifying microplastics in Texas bays and estuaries using pyrolysis GC-MS

Zhanfei Liu - The University of Texas at Austin

Pyrolysis GC/MS has become the “go-to” tool for quantifying microplastics in environmental samples, yet there are many challenges in sample pretreatment in order to isolate the plastics from the sample matrix, and analytically as well. In this talk, I’ll specifically talk about our recent experience dealing with plankton tow samples from Texas bays and estuaries using pyrolysis GC/MS. I will also talk about how pyrolysis GC/MS can be used to identify additives or plastic degradation products, in addition to plastic identification and quantification.  

Abstract # 239 - Seminar
10/14/2025 - 2:10 PM - 2:35 PM - Floral Hall A2

Square Pegs in Round Holes: Challenges in WPPO Analysis in the Commercial Market

John Zuber - Brightmark

The commercial production of waste plastic process oils (WPPO) presents a currently difficult-to-solve problem for product analysis for sale to the market. Many traditional analysis methods that the larger petroleum industry is comfortable and familiar with do not directly apply or fully capture the critical aspects of quality demanded for end users, whether as an intermediate product for further processing into refined products or as an end use product. Detailed within is a summary of Brightmark’s experiences selling WPPO into the market, along with a discussion of helpful goals for future industry improvements to WPPO analysis.

Abstract # 240 - Paper
10/14/2025 - 3:05 PM - 3:35 PM - Wisteria

TOC Analysis Under Pressure: Tackling Salinity and Particulate Challenges in Petrochemical Applications

Jessica Gantt - Analytik Jena
Bernd Bletzinger - Analytik Jena

Refinery labs face increasing high throughput demands despite challenging sample matrices and limited operator availability. Petrochemical wastewater and brines are monitored for Total Organic Carbon (TOC) to ensure compliance with environmental regulations and to protect downstream reuse or disposal pathways.

High salinity and particulates in these samples can disrupt TOC analysis and increase maintenance demands. This presentation outlines strategies for optimizing TOC workflows using two high-temperature combustion systems with NDIR detectors. Designed for demanding petrochemical applications, the multi N/C 3300 features a salt kit that prevents corrosion and extends maintenance intervals, while the multi N/C 2300 specializes in the direct injection of particle-rich samples. The reverse rinse function and Self Check System work together to flush residues and proactively monitor system health, ensuring consistent performance with minimal operator intervention.

The talk will include case studies from Gulf Coast refineries, highlighting practical approaches and instrument configurations that have successfully supported TOC analysis under challenging conditions.

Abstract # 241 - Seminar
10/14/2025 - 12:45 PM - 1:30 PM - Tulip

Why 30 Points for SQC?

Alex Lau - Baytek

This brief seminar will provide a simple overview on the concept of ‘degrees of freedom (df)’ for the standard deviation statistic s , how df can be combined (pooled) from multiple s statistics, and why a minimum df of 30 is specified for repeatability (r) and reproducibility (R) statistics in ASTM D6300 (Standard Practice for Determination of Precision and Bias Data for Use in Test Methods for Petroleum Products and Lubricants).

Abstract # 242 - Seminar
10/14/2025 - 1:30 PM - 2:15 PM - Tulip

Why Ordinary Linear Regression should not be used to develop a correlation between test methods

Alex Lau - Baytek

This brief seminar will provide a simple overview of the common uses and fundamental assumptions behind Ordinary Linear Regression (OLR), followed by an explanation of why the ReXY (Regression with errors in X and Y) technique in ASTM D6708 (Practice for Statistical Assessment and Improvement of Expected Agreement Between Two Test Methods that Purport to Measure the Same Property of a Material) should be used instead.

Abstract # 243 - Paper
10/15/2025 - 8:00 AM - 8:40 AM - Wisteria

Learning the Tips and Tricks of Sample Introductory Techniques such as Headspace and Thermal Desorption for Gas Chromatography

Lee Marotta - PerkinElmer
Leeman Bennington - PerkinElmer

Gas Chromatography (GC) sample introduction techniques such as headspace (HS) and automated thermal desorption (ATD) are very easy useful tools for the investigation of compounds in many matrices and products whether the requirement is product quality or toxic compound investigation.   There are several benefits using HS and ATD to attain information.  They are less labor intensive providing enhanced productivity; they optimize sensitivity because they automate concentration; and they require little to no solvents rendering them environmentally friendly.    This presentation is a learning experience which will introduce the theory, functionality and methods of these technologies.  Several applications will be discussed to enhance the method development experience.

Abstract # 245 - Workshop
10/15/2025 - 8:30 AM - 10:00 AM - Floral Hall A2

Driving Lab Efficiency, Reliability, and Cost Savings with Advanced ICP-OES and ICP-MS Nebulizers

Sergei Leikin - Texas Scientific Products
Jesus Acapulco - Analytik Jena
Randy Rarig - Ketjen Corporation
Jerome Franks - Hunt Refining

Workshop includes three presentations, followed by a brief Q&A session.
Attendees are encouraged to bring up their own unique problems for open discussion.

1. How Different Pneumatic Nebulizers Affect your ICP-OES Elemental Analysis: From Crude Oils to Brine Samples. By Jesus Antonio Acapulco Jr, Application Specialist at Analytik Jena US LLC. The nebulizers used in inductively coupled plasma – optical emission spectroscopy (ICP-OES) have undergone significant transformation in recent years, driven by technological innovation, regulatory demands, and expanding applications across industries. The study focuses on two pneumatic nebulizers. The challenges of analyzing real world samples from difficult crude oils to brines with high total dissolved solids (TDS), are presented and discussed. 

2.Tired of Clogged Nebulizers?  The Effect of Novel Nebulizers on Challenging Organic ICP-OES and High TDS Aqueous ICP-MS Samples.  By Randy S Rarig Jr. Ph.D. Global Physical Analysis R&T Advisor at Ketjen Corporation. Analytical laboratories increasingly face challenging samples that demand both lower detection limits and faster turnaround. These samples are often difficult to digest or dissolve, leaving residual particulates and solutions with high total dissolved solids (TDS). As a result, clogged nebulizers interrupt analyses, requiring cleaning or unblocking and reducing overall productivity. Novel nebulizers have been applied to address these challenges, demonstrating strong resistance to clogging and enabling continuous operation with little to no downtime. The result is increased throughput, faster turnaround, greater reliability of results, and enhanced confidence in data quality—benefits critical to any analytical laboratory.   

 3. Cutting Costs and Downtime with Robust Low Maintenance  ICP-OES  Nebulizer. By Jerome Franks, LabTech1 Supervisor at Hunt Refining Inc. A refinery analytical laboratory processes a wide variety of petrochemical samples, from crude oil to light, heavy, and gas oils, as well as diesel and naphtha. Previously, extensive maintenance and daily cleaning were required, while frequent nebulizer blockages led to replacement of several units per month and costly downtime. Since implementation of a robust nebulizer, the laboratory has handled all sample types reliably, requiring cleaning only once every two months with no replacements. This transition eliminated recurring costs, reduced personnel workload, and significantly improved laboratory efficiency and overall operational reliability.  

Abstract # 247 - Paper
10/15/2025 - 8:40 AM - 9:05 AM - Wisteria

Navigating the Transition from Helium as a Carrier Gas

Leeman Bennington - PerkinElmer

Chromatographers use approximately 7.9 % of the available helium resources per year. Helium costs are rising sharply; and shortages, are hindering productivity and profits. This presentation will focus on attaining high analytical performance using alternative carrier gases such as hydrogen and nitrogen in petroleum and environmental applications, as follows:

· New technology to enable the safe usage of hydrogen as a carrier gas for gas chromatography (GC) applications

· Interlaboratory studies (ILS) using nitrogen and hydrogen with precision (focus on D3606 and D2887)

· Preventing protonation using hydrogen as a carrier gas in GC – Mass Spectrometry (MS) applications

· Comparing chromatography resolution in three carrier gases

Abstract # 249 - Paper
10/15/2025 - 1:30 PM - 2:00 PM - Daffodil

Maintaining the Spark: Ignitor Care for ASTM D93 & D56 Units

Andjela Djordic - Anton Paar

Join us for a deep dive on best practices for ignitor maintenance in automated flash point analyzers operating under ASTM D93 (Pensky-Martens) and ASTM D56 (Tag) methods. We'll cover why ignitor health is essential for accurate and reliable flash point testing, how to identify early signs of wear or malfunction, and provide practical tips on inspection, cleaning, and replacement intervals. We’ll also discuss the types of ignitors and special considerations. This session is ideal for lab technicians and quality managers aiming to minimize downtime and maintain compliance through proactive maintenance.

Abstract # 250 - Paper
10/15/2025 - 9:00 AM - 9:30 AM - Daffodil

Flash Point Testing: Safety in Your Hands with ASTM D56, D93, and D92

Priscilla Dias Da Silva - Anton Paar

Flash point testing is critical for safe handling and classification of flammable liquids—but improper use can create serious hazards. This session will guide you through best practices to ensure safety and accuracy using key standard methods, including ASTM D56, D93, and D92.

Key topics include:

• Understanding the risks of improper flash point testing and how to mitigate them
• Choosing the right test method for unknown samples
• Safe sample handling and operation techniques
• Fire extinguisher basics and emergency preparedness in the lab

Join us to gain practical insights that put safety in your hands and help you master flash point testing with confidence.

Abstract # 251 - Paper
10/15/2025 - 12:00 PM - 12:30 PM - Daffodil

Lubricant Analysis, Evolved: Smarter Oxidation and Cold-Flow Testing with ASTM D8206 and D2983

Priscilla Dias Da Silva - Anton Paar

Say goodbye to outdated, time-intensive lubricant tests. In this session, we’ll explore how modern methods and instruments can streamline your workflow, improve safety, and deliver relevant data—faster.

Topics will include:

• How ASTM D8206 compares to traditional ASTM D942 for grease oxidation stability
• How to test environmentally acceptable lubricants (EALs) efficiently using ASTM D8206
• Low-temperature viscosity testing using ASTM D2983 Method B to evaluate lubricants and ATFs for driveline and cold-start performance

All attendees will receive a free e-book on lubricant analysis, featuring a wide range of methods, tools, and expert tips.

Abstract # 252 - Paper
10/15/2025 - 9:30 AM - 10:00 AM - Daffodil

Faster Polymer Analysis: Molecular weight in one measurement

Afzal Hossain - Anton Paar

How long does analysis of yoru polymer samples take? Learn how to rapidly measure the molecular weight of polymer-in-solvent samples in just one test using the combination of density and rolling-ball viscometry. 

Abstract # 253 - Paper
10/15/2025 - 12:30 PM - 1:00 PM - Daffodil

Move beyond D445 with the Simplicity of D7042

Daniel Wolbrecht - Anton Paar

Are you tired of waiting for D445 measurements to be complete? Spending too much time cleaning capillaries? Worried about the risk and expense of broken glass?

This presentation will discuss the widely accepted viscosity method D7042 and how it relates to D445 in major standards such as fuels or lubricants. Leave the troubles of D445 behind with the simplicity and accuracy of D7042.

Abstract # 254 - Paper
10/15/2025 - 1:00 PM - 1:30 PM - Daffodil

Remove the bottleneck! How D7525 can speed up oxidation testing in D4814 gasoline testing

Will Smythe - Anton Paar

With the recent addition of the modern oxidation test method, D7525 Rapid Small Scale Oxidation Testing, to the D4814 gasoline specification major time savings are now available for fuel testing.

This presentation will cover how RSSOT testing works and how the limits for D7525 compare to D525. In addition, we will cover the reduction in time, hassle, and lab space that can be achieved with the Rapid Small Scale Oxidation Test.

Abstract # 255 - Paper
10/15/2025 - 8:00 AM - 8:30 AM - Daffodil

FTIR for FAME in Diesel Blends & Used Oils

John Martin - Anton Paar

This talk will cover the precise analysis of biodiesel (FAME) in diesel blends, following the DIN EN 14078, ASTM 7806 and ASTM D7371 standards, using the Lyza 7000 FTIR spectrometer. Attendees will learn how FTIR provides a fast, accurate, and preparation-free method to measure FAME content, ensuring compliance with strict industry regulations. The session will also include insights into monitoring soot in lubrication oils according to ASTM D7844, highlighting FTIR's role in optimizing machinery maintenance and more.

Abstract # 256 - Paper
10/15/2025 - 8:30 AM - 9:00 AM - Daffodil

Digestion of Petroleum Samples for Element Analysis with ICP

Deanna Turner - Anton Paar

Petroleum samples present unique challenges in ICP analysis, making effective sample preparation critical. This talk explores the benefits of microwave digestion for complex matrices and how it can significantly reduce time, effort, and cost in the workflow.

Abstract # 257 - Seminar
10/14/2025 - 8:00 AM - 8:30 AM - Bluebonnet

Reliable Elemental Analysis of Crude Oil using the New Analytik Jena’s PlasmaQuant 9200 High Resolution ICP-OES

Jesus Acapulco - Analytik Jena

The analysis of crude oil samples using inductively coupled plasma–optical emission spectroscopy (ICP-OES) presents unique challenges due to the high viscosity, volatility, particulate content, and elevated carbon levels of the matrix. To address these issues, we collaborated with Glass Expansion, utilizing their Guardian Autosampler Probe, designed for robust performance in demanding sample environments. This specialized probe, constructed from chemically resistant materials and featuring an optimized geometric design for high-matrix tolerance, enabled consistent sample uptake and minimized carryover during analysis. In this presentation, we compare the performance of a standard carbon fiber probe with the Guardian autosampler probe side by side. Integrated with the newly launched Analytik Jena PlasmaQuant 9200 High Resolution ICP-OES system, a space-saving powerhouse, the Guardian probe demonstrated excellent stability and reproducibility, even with complex crude oil matrices. The robust and powerful plasma and the high optical resolution of the PlasmaQuant 9200 series, combined with the reliable sample uptake by the Guardian Autosampler probe gave excellent and reliable measurement results, making it a valuable solution for routine and high-throughput elemental analysis in petrochemical applications.

Abstract # 258 - Seminar
10/14/2025 - 8:30 AM - 9:00 AM - Bluebonnet

Clean Digestion: Microwave Solutions for Complex Matrices

Samuel Heckle - CEM Corporation

Preparing heavy oils and thermoplastics for trace metals analysis is challenging. Traditional methods involve flaming, muffle furnace ashing, and reconstitution—lengthy steps that risk contamination—and that’s before the digest. The BLADE™ automated microwave digestion system offers a faster, cleaner alternative, digesting complex samples reducing the need for pre-digestion steps. Learn practical tips for digesting tough samples and reducing contamination sources. We’ll cover both efficient sample prep and clean lab practices to help you improve accuracy and consistency in your trace metals analysis.

Abstract # 259 - Seminar
10/14/2025 - 9:00 AM - 9:30 AM - Bluebonnet

Dedicated, High-Performance Sample Introduction Systems (HP-SIS) for ICP-OES

Randy Mercurio - Glass Expansion

The standard sample introduction system (SIS) of your ICP determines many factors, including detection limits, precision, different matrix tolerances and cost. ICP performance can often be improved by careful choice of torch, spray chamber and nebulizer components, taking into account the type of samples that will be analyzed. In this presentation we will highlight Glass Expansion’s new line of High Performance Sample Introduction Systems (HP-SIS) for the Thermo Fisher Scientific® PRO Radial and Duo ICP-OES. This presentation will help you learn how to make the right choice to get the best results and reduce operating costs, while minimizing downtime.

Abstract # 260 - Seminar
10/14/2025 - 9:30 AM - 10:00 AM - Bluebonnet

Contamination Challenges in ICP Trace Metals Analysis: Key Considerations for Accurate Results

Lesley Owens - Inorganic Ventures

Achieving reliable trace metals measurements by ICP requires strict contamination control, as even minor impurities can affect accuracy near detection limits. This presentation will highlight common contamination sources throughout the analytical workflow and offer practical strategies to minimize them. Topics include sample preparation, calibration standard purity, and contamination from labware, instrumentation, and the environment. Emphasis will be placed on high-purity reagents and risks associated with container materials and sample introduction systems. Attendees will gain clear insights into contamination risks and best practices to improve data quality, reproducibility, and confidence in low-level ICP trace metals analysis.

Abstract # 261 - Seminar
10/14/2025 - 11:45 AM - 12:15 PM - Bluebonnet

Improving Biofuel Production Through Feedstock Screening by ICP-OES

Aaron Hineman - PerkinElmer

Variability in biodiesel feedstock composition can introduce contaminants such as Na, K, Ca, Mg, P, and transition metals that poison catalysts and raise refining costs. This presentation shows how inductively coupled plasma optical emission spectrometry (ICP-OES) provides rapid, simultaneous multi-element screening at sub-ppm levels, even in viscous organic matrices. By identifying contaminants early, refiners can optimize pretreatment, reduce downtime, and improve fuel quality. Case studies demonstrate the performance advantages of fully simultaneous and hybrid simultaneous ICP-OES systems for reliable biofuel feedstock analysis.

Abstract # 262 - Seminar
10/14/2025 - 12:15 PM - 12:45 PM - Bluebonnet

Routine Trace Metal Analysis of Oils, Fuels and Other Challenging Samples with a Novel N2 ICP-OES System

Mike Plantz - Radom Instruments

This talk will focus on the capabilities and performance of the Radom MICAP-OES 1000 ICP-OES instrument for challenging applications such as oils, fuels and high matrix aqueous samples.  The unique capabilities of this microwave plasma coupled to the high resolution simultaneous spectrometer will be demonstrated on a variety of organic and aqueous sample matrices.  The small footprint design coupled with its use of N2 to support the ICP source results in a very robust, cost effective and easy to operate tool for measuring trace metal concentrations.  A brief discussion on its novel design and operation will be followed by demonstration of its performance on several complex sample types.  System stability and accuracy in these challenging applications will be presented.

Abstract # 263 - Seminar
10/14/2025 - 12:45 PM - 1:15 PM - Bluebonnet

Advancing Trace Elemental Analysis with SPECTRO ICP-OES and ICP-MS Instrumentation

Janel Dempsey - SPECTRO Analytical Instruments

SPECTRO Analytical Instruments provides exemplary elemental analysis solutions for a broad range of applications. SPECTRO’s three ICP-OES models offer superior performance for high matrix samples such as petrochemicals and oilfield brines. The innovative dual side-on interface plasma view affords improved sensitivity without adding costly and time-consuming maintenance. For applications requiring higher sensitivity, the new SPECTROGREEN MS delivers stability, matrix compatibility, speed, and ease of use. With the same high-powered LDMOS generator employed in SPECTRO’s ICP-OES products, a gas dilution system, and an efficient collision/reaction cell, the SPECTROGREEN MS easily meets testing requirements for a wide range of industrial applications.

Abstract # 264 - Seminar
10/14/2025 - 1:15 PM - 1:45 PM - Bluebonnet

APS-7450V AUTOMATED SAMPLE PREP STATION TELEDYNE CETAC TECHNOLOGY

Jeff Eubanks - Teledyne Labs

Proper maintenance of heavy machinery is critical and rising in demand. A key tool in preventative maintenance is the analysis of lubricating oils for wear metals, helping identify issues before component failure. This growing need led ASTM to develop Method D5185 for quantifying wear metals and oils. The APS-7450V volumetric sample prep station was specifically designed to support this method and meet the increasing demands of in-service oil analysis labs. It's simple design and intuitive software make it easy to integrate into any lab workflow quickly becoming a vital part of daily operations. Come learn the FACCS about APS-7450V.

Abstract # 265 - Seminar
10/14/2025 - 1:45 PM - 2:15 PM - Bluebonnet

Optimizing volatile organic analysis using the Thermo Scientific iCAP PRO ICP-OES and IsoMist temperature controlled spray chamber

Mike Mourgas - Thermo Fisher Scientific

This presentation details optimizing ICP-OES analysis of challenging volatile organic compounds like naphtha. We will demonstrate how the iCAP PRO ICP-OES, coupled with the Glass Expansion IsoMist temperature controlled spray chamber, delivers unparalleled robustness and sensitivity. Discussions will cover instrument and software-based method development and will introduce our revolutionary AI-powered semi-quantitative analysis. This new feature allows analysts to quickly identify elements and estimate concentrations without calibration, significantly simplifying initial sample characterization. An application example with real data will provide a clear proof of concept and a ready-to-implement workflow.

Abstract # 266 - Seminar
10/15/2025 - 10:00 AM - 11:00 AM - Exhibit Hall A4

KEYNOTE: GenAI for Energy & Chemicals: From Data to Real-Time Decisions

Diti Sood - Bolo AI

In this keynote, Diti Sood, Founder & CEO of Bolo AI, reveals why GenAI demands a fundamentally different approach and how to unlock real ROI across chemical plants, refineries, and energy operations. Moving beyond chatbots to true workflow intelligence, she’ll share how GenAI can cut through noise, surface critical risks faster, and drive safer, more reliable operations.

Drawing on her dual perspective as both an Oil & Gas field engineer and CEO of one of the industry’s fastest-growing AI startups, Diti will share practical frameworks and real-world case studies. Discover how leading operators are using GenAI to reduce downtime, improve decision-making, and shift from reactive firefighting to proactive operations.

The competitive advantage won’t belong to companies with the most data but to those who design GenAI systems that make daily work faster, safer, and better.

Abstract # 267 - Seminar
10/15/2025 - 2:10 PM - 3:10 PM - Orchid

Process Raman AIO

Kingsley Chambers - ThermoFisher Scientific

This talk will highlight the theory of Raman Spectroscopy and outline several hardware innovations. It will outline the advantages of using Raman Spectroscopy in process and benchtop applications.   The presentation will illustrate various accessories and Chemometrics used to solve problems using Raman.

Abstract # 268 - Seminar
10/15/2025 - 12:00 PM - 12:30 PM - Tulip

The Sticky Problem of the Forever Chemicals – New Challenges in Environmental Exposome

Yina Liu - Texas A&M University

Per- and polyfluorinated alkyl substances (PFAS) continue to receive significant attention as they are often detected in natural waters and biota. Notably, they were observed in coastal and open oceans as well as in marine organisms. Therefore, tracking their transport and fate becomes critical for understanding PFAS’s ecological impacts. This talk will focus on PFAS observed in natural waters, wildlife, and food matrices. The seminar will also highlight data from a five-year time series of PFAS observed in one of the most industrialized estuaries in the United States, Galveston Bay, TX.

Abstract # 269 - Seminar
10/15/2025 - 1:00 PM - 1:30 PM - Tulip

PFAS in Air: Regulatory and Standards Landscape, Method Development, and Workflow Guidance

Caroline Widdowson - Markes International

PFAS (per- and polyfluoroalkyl substances) are a group of highly persistent chemicals that are now recognized as a global concern. While much attention has focused on water and soil, PFAS can also be emitted into the air during industrial processes, product use, and waste handling. Once airborne, they may travel long distances, making air a critical pathway for dispersion and exposure. Testing for PFAS in air is challenging. They can exist both as vapors and bound to particles, they occur at very low concentrations, and background contamination can easily compromise results. For industry and environmental consultants tasked with source emission testing and environmental monitoring, understanding these challenges and the expectations of regulators is essential. This presentation is designed to give attendees a clear overview of the current landscape for PFAS air monitoring. We will outline practical considerations for sampling and analysis, highlight the importance of contamination control, and provide updates on U.S. and international efforts toward method development, standardization, and regulatory guidance. Example workflows using thermal desorption coupled with GC–MS (TD–GC–MS) will also be discussed, showing how these techniques can be applied to real-world PFAS air testing. By clarifying what is expected of industry, regulators and consultants, and by sharing both U.S. and global perspectives, the session will equip participants with the knowledge needed to approach PFAS air testing with confidence and consistency.

Abstract # 270 - Seminar
10/15/2025 - 8:00 AM - 8:30 AM - Tulip

Overview of PFAS Testing and Regulations

Mike Chang - Agilent Technologies

Per- and polyfluoroalkyl substances (PFAS) have been used in many industries from non-stick cookware, firefighting foams, food packaging materials, semi-conductor manufacturing to electric vehicle battery manufacturing. Since the late 1940s, these 100% man-made chemicals provided great benefits in our daily life as well as threats to our environment. For the past few years, with regulatory emphasis on environmental protection, there have been numerous studies regarding how to effectively measure PFAS in various sample types. In this presentation, I will go over the current regulatory landscape and discuss currently available technologies for measuring PFAS accurately.

Abstract # 271 - Seminar
10/15/2025 - 9:30 AM - 10:00 AM - Tulip

Streamlined PFAS Analysis in Biosolids, Tissue, Soil by LC-MS/MS

Mike Chang - Agilent Technologies

While per- and polyfluoroalkyl substances (PFAS) have been analyzed by many laboratories in the past decades, most of the testing were focused on drinking water analysis globally due to strict regulations in drinking water. Now the expansion of the scope of PFAS measurements is headed toward biosolids, tissue samples, soil and many other challenging sample types. To address this US EPA published the final version of Method 1633A. In this presentation, we will discuss how to overcome challenges in handling these complex samples matrices and automation for better productivity.

Abstract # 272 - Paper
10/15/2025 - 12:00 PM - 12:40 PM - Hibiscus

Records and Security

Jeanne Mensingh - Labtopia, Inc.

In any industry, laboratory records must be secure, accessible, and defensible to meet stringent regulatory, operational, and client requirements. Classifying Records for Integrity and (Cyber)Security presents a practical approach to identifying and protecting critical laboratory data—from paper logbooks to digital spreadsheets, instrument outputs, and hybrid systems. This session explores the importance of proper data classification, traceability, and validation to ensure record integrity throughout the data lifecycle. Attendees will learn how to address common vulnerabilities such as data corruption, unvalidated macros, disconnected instruments, and inadequate backup protocols. Emphasis is placed on cyber-resilience, human-readable formatting, system access controls, and differentiating between data integrity and data security. As laboratories evolve with cloud platforms and increased automation, this presentation provides the tools and strategies needed to build trust, ensure defensibility, and prepare for audits or incidents in today’s regulated environments.

Abstract # 273 - Paper
10/15/2025 - 9:00 AM - 9:45 AM - Hibiscus

Laboratory Digital Maturity: Readiness, Roadblocks, and Strategic Opportunities

Gretchen McAuliffe - Labtopia

Laboratories across industries are cautiously embracing AI as a means of simplifying or resolving a wide range of thorny issues. While it is true that the potential of AI is immense, there is quite a bit of groundwork to be laid before it can be adopted in laboratory environments. An advanced level of digital maturity is a prerequisite. But what does digital maturity actually mean, and how can it be achieved? This presentation provides thoughtful responses to these uncertainties, examining the question of how to assess digital readiness, addressing roadblocks that might impede progress, and highlighting the opportunities that pursuing digital maturity will position early adopting laboratories to seize.

Abstract # 274 - Paper
10/15/2025 - 12:30 PM - 1:00 PM - Tulip

Defluorination and derivatization of fluoropolymers for determination of total organic fluorine in polyolefin resins by gas chroma

Peilin Yang - The Dow Chemical Company
Yujuan Hua - Dow Chemical Canada ULC
Jim Luong - Dow Chemical Canada ULC
Tianzi Huang - The Dow Chemical Company
Shayne Green - The Dow Chemical Company

The growing regulatory attention on PFAS, especially polymeric PFAS, demands effective analytical strategies for quantifying total organic fluorine (TOF) in complex materials. This presentation introduces a practical approach for determining TOF in polyolefin resins. Through selective solvent extraction from polyolefin resin, efficient defluorination of high molecular weight fluoropolymers, and sensitive GC detection of the derivatization product, this method achieves reliable quantification across a broad linear concentration range of 1-150 ppm. This GC-based approach provides a cost-effective solution for monitoring fluorine in a variety of applications to support both compliance and innovation in materials science.

Abstract # 275 - Paper
10/15/2025 - 2:30 PM - 3:00 PM - Tulip

PFAS in Biosolids: Regulations and Testing Methods

Michelle Onofrio - ALS USA Environmental

Sewage sludge and biosolids have been used for land application since the early 20th century due to their agricultural benefits. Sewage sludge treatment does not specifically remove PFAS, and treated biosolids can therefore contain these persistent contaminants. PFAS contamination in biosolids has received growing attention nationwide, with some cases drawing national media coverage. There are currently no federal regulations limiting PFAS concentrations in land-applied biosolids, but some states have enacted PFAS-specific regulatory limits, and several others have proposed legislation under review. This review summarizes the current regulatory landscape surrounding PFAS in biosolids and provides an overview of applicable analytical methods.

Abstract # 276 - Paper
10/15/2025 - 9:00 AM - 9:30 AM - Tulip

PFAS in Air OTM Methods

Kesavalu Bagawandoss - SGS North America, Inc.

PFAS in air is a burning topic in the “Forever Chemicals World”. Although OTM-45 method has been in use for a while that method is an impinger sample collection method in a liquid and analyzed by EPA method 1633 or 537 (mod.). OTM -50 is an Air method, wherein, samples are collected in SUMMA canisters akin to TO-15A. OTM-50 names a target compound list of 30 PFAS compounds. The differences between regular PFAS LC/MS/MS OTM-45 and OTM-50 methods will be discussed. US EPA requires that 30 PFAS compounds be analyzed as provided in the OTM-50 method. The analytical standards, surrogates and internal standards will be outlined for the OTM -50 method. Unlike regular PFAS standards the sources from which standards are acquired are quite different. Method OTM-50 and its process on sample collection and analysis will be outlined. Data from OTM-50 method will be discussed.

Abstract # 277 - Training Course
10/15/2025 - 2:00 PM - 2:30 PM - Tulip

Managing Your PFAS Workflows With Agilent SLIMS

Miles Bradshaw - Agilent Technologies

SLIMS connects directly to the instruments, tracks samples and guides users through the defined workflows ensuring quality results. SLIMS also can track equipment, consumables and reagents verifying availability and fit for purpose. SLIMS complements chromatography and mass spectrometry software by automatically importing results and generating reports and EDDs saving you time and simplifying the most time-consuming actions in your data management workflows.  Key features in SLIMS like the ability to version workflows can help labs when new standards are published, while enabling compliance with quality systems and regulatory requirements that are key to achieving excellence in scientific outcomes.

Abstract # 278 - Paper
10/14/2025 - 2:35 PM - 3:00 PM - Floral Hall A2

Interrogating the Composition of Mixed Plastic Waste Pyrolysis Oils using Supercritical Fluid and Gas Chromatography

Kevin Schug - The University of Texas at Arlington
Alexander Kaplitz - The University of Texas at Arlington
Sadid Morshed - The University of Texas at Arlington
Noah Menard - The University of Texas at Arlington
Jean-François Borny - Lummus Technology, LLC

The pyrolysis of mixed plastic waste is a promising advanced recycling technology.  The refinement of mixed plastic waste pyrolysis oils can be challenging because of the variable composition and properties of the oils.  Methods are needed to characterize pyrolysis oils.  Supercritical fluid chromatography (SFC) was investigated for the separation of pyrolysis oils.  A method was devised to differentiate pyrolysis oils that are generated from polyethylene and polypropylene feedstocks using ultraviolet detection.  SFC was also used with fraction collection to fractionate the oils for subsequent gas chromatography (GC) analysis.  GC with mass spectrometric and vacuum ultraviolet spectroscopic detection were used.

Abstract # 279 - Paper
10/14/2025 - 1:40 PM - 2:10 PM - Floral Hall A2

Quantifying Olefins in Waste Plastic Pyrolysis Oils and Distillate Fractions via GC×GC–FID with Targeted Derivatization

Petr Vozka - California State University, Los Angeles

Waste plastic pyrolysis oils (WPPOs) are complex, variable mixtures. Unsaturation governs stability, upgrading severity, and the quality of fuel-range cuts. Reliable, transferable olefin quantification across whole oils and distillates is therefore essential. Here is presented an advancement over our prior gasoline-range method, extending precise quantification to jet-range fractions and progressing toward diesel-range application. The approach couples comprehensive two-dimensional gas chromatography with flame ionization detection (GC×GC–FID) with targeted derivatization to reposition olefins in the GC×GC space, enabling robust indirect quantification with carbon-number- and class-resolved outputs amid paraffins, naphthenes, and aromatics.

Abstract # 280 - Seminar
10/14/2025 - 10:00 AM - 11:00 AM - Exhibit Hall A4

KEYNOTE: Plastic Waste Measurements: How Can GC×GC Decode Complexity in Pyrolysis Oils and Microplastics

Petr Vozka - California State University, Los Angeles

Plastic waste manifests as environmental microplastics (MPs) and, when thermochemically processed, as waste plastic pyrolysis oils (WPPOs), both demanding rigorous measurements. Analytical measurements underpin efforts toward the conversion of plastic waste into usable products and toward understanding the organic compounds associated with MPs. Current economics are challenging; however, analytics can help reduce risk and cost. This talk surveys work on the detailed analysis of WPPOs and MPs. A forward-looking perspective will outline research and implementation needs over the next five years to support broader use of WPPOs, alongside the role of education and public communication in building literacy and trust. The talk highlights opportunities for researchers and industry to reduce uncertainty, align expectations, and support responsible deployment.

Abstract # 282 - Seminar
10/15/2025 - 8:30 AM - 9:00 AM - Tulip

An Exploration of Sample Prep Techniques for Non-targeted Analysis of PFAS using Combustion Ion Chromatography

Dr. Jay Gandhi - Metrohm USA

Due to their environmental persistence and potential implications on human health, the analysis of per- and polyfluoroalkyl substances, or PFAS, in the environment remains critical. Targeted analysis using LC-MS/MS has long been the analytical method of choice, due to its high sensitivity and specificity. With more than 3000 potential PFAS-type compounds, targeted analysis does not always allow for the assessment of the total impact of these compounds. Because of this, there has been increasing interest by regulatory committees in non-targeted analysis techniques, such as quantifying total organic fluorine (TOF), as a PFAS impact assessment. Combustion Ion Chromatography, or CIC, allows for the sensitive quantitation of TOF, ranging from single digit ppb to percent levels. In this technique, samples are combusted in a high temperature oven, where organofluorine bonds are broken to produce HF, which is subsequently absorbed into solution and analyzed by IC for fluorine. Prior to analysis by IC, inorganic, or free fluoride must be separated from the sample to prevent interference. A variety of techniques exist to accomplish removal of inorganic fluoride, such as the AOF (adsorbable organic fluorine) method (USEPA Method 1621), which captures organofluorine compounds on an activated charcoal bed and allows for removal of free fluoride through a rinsing step. The charcoal can then be analyzed by CIC. Other methods have also been investigated to further improve recovery of TOF, allowing for the non-targeted identification of PFAS compounds ranging from C1-C16+. Most recently Metrohm USA and Markes International collaborated to introduce “Total Fluoride in Air by C-IC”. A complete portfolio of Total Fluorine analysis in Air, Water and Soil will be presented.