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Central Environmental Training Calendar
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  • Chemistry Refresher for Environmental Professionals Training Course - Live Online Training

    • January 21, 2026
    • 8:00 AM - 5:00 PM
    • Live Online Training
    Register


    January 21, 2026, 8 A.M. to 5 P.M. EST (1 Day)

    Eastern Time Zone
    (7 A.M. to 4 P.M. Central or 6 A.M. to 3 P.M. Mountain)

    Live Interactive Online Training


    Course Reviews (4.6/5): 

    Overview: This course provides a practical review of key chemistry principles essential for understanding contaminant behavior in soil, air, and water. The course begins with a review of atomic structure and the environmental applications of the periodic chart. The course then progresses through topics such as chemical bonds, chemical reactions, inorganic chemistry, and organic chemistry. Environmental professionals working in water quality, stormwater management, contaminated site assessment, and remediation will benefit from attending.


    This course is followed by the Principles of Contaminant Transport and Fate in Soil and Groundwater training, January 27 - 28, 2026, which is recommended for those working on contaminated soil and groundwater sites.

     
    Course Topics: 
    Physical and Chemical Properties of Contaminants (S, Kd, Koc, Kow, Kh, Tb, Tm)

    Environmental Applications of the Periodic Table


    Oxidizers, Reducers, and Oxidation States
    Mass-Based and Molar-Based Concentrations
    Covalent versus Ionic Bonding

    Empirical, Chemical, and Structural Formulas
    Lewis Dot Notation
    Predicting Molecular Geometry
    Solubility Rules, Precipitation, and Sedimentation
         		Chemical Reactions, Kinetics, and Thermodynamics
    Stoichiometry
    Chemical Equilibrium and Limiting Reactants
    Redox Potential and pH

    Microbes and Terminal Electron Acceptors
    Polyatomic Oxoanions (nitrate, phosphate, perchlorate, etc.)
    Organic Molecules and IUPAC Nomenclature
    Common Soil and Water Quality Monitoring Parameters

    Predicting Contaminant Behavior


    Intended Audience: Environmental professionals seeking an improved understanding of environmental chemistry. The course is especially helpful for those working with chemical data who have not had a chemistry refresher course in over ten years.


    Education Level: Introductory/refresher to intermediate.

    Course Materials: 2026 updated course proceedings (124 color pages - PDF).


    Credit: 7.5 PDHs or 0.75 CEUs for completing 7.5 hours of instruction.


    Registration: $295, $225 per person for small groups of 2 to 9 people, $150 per person when registering a large group of 10 or more on the same registration. Each registrant will receive their own link to join the training and may participate from any location with internet access. Register online or by calling us at (800) 385-0783.


    Location: Your home or office - anywhere you can get comfortable and online.

    About the Instructor: Erick McWayne has over thirty years of professional experience in environmental quality management and teaching related courses. As a consultant, he managed contaminated surface water, soil, and groundwater projects for the Department of Defense and other clients. He currently provides consulting support to environmental projects and teaches courses in contaminant chemistry, transport and fate, geochemistry, hydrogeology, and remediation with the University of California Davis and the National Environmental Management Academy (NEMA).

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  • Principles of Contaminant Transport and Fate in Soil and Groundwater Training Course: A Focus on the Behavior of Petroleum, Chlorinated Solvents, and Metals - Live Online Training

    • January 27, 2026
    • 8:00 AM
    • January 28, 2026
    • 5:00 PM
    • Live Online Training
    Register


    January 27 - 28, 2026, 8 A.M. to 5 P.M. EST     (2 Days)

    Eastern Time Zone

    (7 A.M. to 4 P.M. Central or 6 A.M. to 3 P.M. Mountain)
    Live Interactive Online Training



    Course Reviews (4.8/5): 

    Overview: This course provides a practical overview of contaminant behavior in soil and groundwater with an emphasis on petroleum, chlorinated solvents, and metals. The material is intended for consultants and regulators managing contaminated sites. Course content is constantly updated and includes new research, and approaches for characterizing contaminant distribution and hydrogeology in the subsurface.


    This course is preceded by the Chemistry Refresher for Environmental Professionals, January 21, 2026, which is recommended for anyone who has not had a chemistry refresher training in the last 5 years and those seeking a review of environmental chemistry.


    Course Topics:
    Transport and Fate Overview

    • Potential Fates of Contaminants

    • Advective Transport

    • Mechanical Dispersion

    • Chemical Dispersion

    • Matrix Storage
    • Back Diffusion
    • Effective Solubility and Raoult's Law
    • High Resolution Site Characterization

    3- and 4-Phase Equilibrium Partitioning

    • 3- and 4-Phase Mass Distribution

    • Le Chatelier's Principle 

    • Applications of Kd, Koc, foc, Kow, and KH

    • NAPL and the One Percent Rule

    • Metal Sorption and pH

    • Desorption Rates

    Subsurface Transport

    • Soil Properties

    • Contaminant Infiltration

    • Hydrogeology Overview

    • Three Point Problem

    • Retardation Factors

    • Contaminant Velocity

    • Diving Plumes

    • Permeability vs. Gradient

    Nonaqueous Phase Liquid (NAPL) Transport

    • LNAPL Transport and Distribution Scenarios

    • Saturation and Recoverability

    • Specific Retention (Sr)

    • Concentration of Saturation (Csat)

    • DNAPL Transport and Mass Distribution

    • 14-Compartment Model

    Vapor Transport

    • Henry's Law and Vapor Pressure

    • Contaminant Vapor Transport Processes

    • Petroleum Vapor Attenuation

    • Chlorinated Vapor Attenuation

    • Preferential Pathways

    • Barometric Pumping
    Natural Attenuation

    • Natural Attenuation Processes

    • Lines of Evidence

    • Decay Rates

    • Degradation Rate Tools

    • Estimating Restoration Time Frame

    Focus on Hydrocarbon Contamination

    • Gasoline and Diesel Chemistry

    • Properties of BTEX, Oxygenates, and Additives

    • Soil Retention

    • Ethanol Cosolvation and Plume Elongation

    • Natural Attenuation Processes

    • Geochemical Indicators

    • Plume Behavior and Redox Zones

    • BTEX Plume Lengths
    • Monitoring Parameters

    Focus on Chlorinated Hydrocarbon Contamination

    • Chlorinated Solvent Chemistry and Sources

    • Plume Behavior Classification

    • Degradation Pathways

    • Dehalogenating Microbes
    • Role of Hydrogen Gas
    • Geochemical Indicators
    • Biotransformation Rates
    • Zero-Valent Iron (ZVI)
    • Monitoring Parameters

    Focus on Metal Contaminants

    • Forms of Metal Contamination

    • Complexation and Speciation

    • Methylation and Demethylation

    • Redox and Microbial Effects

    • Cation/Anion Exchange

    • Sorption to Iron Oxides

    • Variably Charged Soils

    • Sulfide Precipitation

    • Dissolved Solids vs. Metal Mobility

    • Facilitated Transport

    • Metal Fixation and Aging

    • Scenarios Approach to Metal Attenuation

    Intended Audience: Environmental professionals seeking an improved understanding of petroleum, chlorinated solvent, and metal behavior in soil and groundwater. This course is ideal for seasoned professionals, as well as, new hires who would benefit from a "crash course" in modern transport and fate science.


    Education Level: Intermediate and advanced topics will be covered. A review of transport and fate principles will also be presented to ensure all levels benefit from attending.


    Course Materials: 2026 updated course proceedings and resources (246 color pages - PDF).


    Credit: 15 PDHs or 1.5 CEUs for completing 15 hours of instruction.


    Registration: $395, $295 per person for 2 to 9 people, $250 per person for 10 or more people on the same registration. Each registrant will receive their own link to join the training and may participate from any location with internet access. You may register online or by calling us at (800) 385-0783.


    Location: Anywhere you can get comfortable and online.

    About the Instructor: Erick McWayne has over thirty years of professional experience in environmental quality management and teaching related courses. As a consultant, he managed contaminated surface water, soil, and groundwater projects for the Department of Defense and other clients. He currently provides consulting support to environmental projects and teaches courses in contaminant chemistry, transport and fate, geochemistry, hydrogeology, and remediation with the University of California Davis and the National Environmental Management Academy (NEMA).

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  • Stormwater BMP Performance and Optimization Training Course: A Focus on BMP Performance, Design, Operation, and Maintenance - Live Online Training

    • February 03, 2026
    • 8:00 AM
    • February 04, 2026
    • 5:00 PM
    • Live Online Training
    Register


    February 3 - 4, 2026, 8 A.M. to 5 P.M. EST (2 Days)

    Eastern Time Zone
    (7 A.M. to 4 P.M. Central or 6 A.M. to 3 P.M. Mountain)
    Live Interactive Online Training



    Course Reviews (4.7/5): 


    Summary: This practical course provides a comprehensive overview of stormwater pollutant control measures (i.e., best management practices - BMPs) and their performance. Topics include an overview of stormwater BMPs, BMP selection, performance assessment, BMP effectiveness, and performance optimization. The course focuses on how pollutant removal is affected by BMP design, operation, maintenance, and the use of treatment trains. Municipal, industrial, and construction BMPs are discussed. The latest BMP performance data from the International Stormwater BMP Database are presented. These data provide a baseline for understanding typical BMP performance and setting performance expectations. Recommended BMP inspection practices are also discussed.
    Course Topics:

    BMP Management

    • Stormwater Management Challenges
    • Stormwater Quality
    • Stormwater Treatment Processes
    • Municipal BMPs
    • Trash Capture BMPs
    • Stormwater and TMDLs
    • Reasonable Assurance Analysis
    • Construction Stormwater Treatment
    • Chemical Treatment Systems
    • Industrial Stormwater Treatment

    BMP Selection and Costs

    • BMP Selection Criteria and Data
    • Online vs. Offline BMPs
    • Treatment Trains
    • SELECT Model
    • Capital and O&M Cost Models
    • Municipal BMP Capital and O&M Costs
    • Construction BMP Capital and O&M Costs
    • Active Chemical Treatment System Capital and O&M Costs
    • Industrial BMP Capital and O&M Costs
    		  

    BMP Monitoring and Performance

    • Monitoring Types and Metrics
    • Treatment Train Performance
    • BMP Performance Variables
    • Performance Expectation Functions
    • International BMP Database Performance Summaries
    • Proprietary BMP Performance
    • Chemical Treatment Performance
    • Industrial BMP Performance
    • Construction BMP Performance 

    BMP O&M and Optimization

    • BMP O&M Overview
    • BMP Field Inspections
    • Municipal BMP Inspection and O&M
    • Construction BMP Inspection and O&M
    • Chemical Treatment System Inspection and O&M
    • Ion Exchange System Inspection and O&M
    • BMP Performance Optimization Practices

      Interactive Exercises

      Intended Audience:  This course is intended for scientists, engineers, permit writers, inspectors, and managers seeking an improved understanding of stormwater BMP performance and optimization.


      Education Level: Intermediate to advanced. General concepts and current research are included to ensure that all levels benefit from attending.

      Credit: 1.5 continuing education units (CEUs) or 15 professional development hours (PDHs) for completing 15 hours of instruction time.

      Course Materials: 2026 updated course proceedings and references (258 page color PDF).

      Registration: $395, $295 per person for groups of 2 - 9 people, $250 per person for large groups of 10 or more on the same registration. Each registrant will receive their own link to join the training and may participate from any location with internet access. You may register online or by calling us at (800) 385-0783.


      Location: Your office or home - anywhere you can get comfortable and online.

      About the Instructor: Erick McWayne has over thirty years of professional experience in water quality management and teaching related courses. As a consultant, he managed contaminated surface water and groundwater projects for the Department of Defense and other clients. He currently provides consulting support to environmental projects and teaches courses in contaminant chemistry, transport and fate, hydrogeology, remediation, stormwater science, and surface water management with the University of California Davis and the National Environmental Management Academy (NEMA).

      Show details

    • Transport and Fate of Metals in Soil and Groundwater: Applying the Scenarios Approach to Inorganic Contaminated Sites Training Course - Live Online Training

      • February 24, 2026
      • 8:00 AM
      • February 25, 2026
      • 5:00 PM
      • Live Online Training
      Register


      February 24 - 25, 2026, 8 A.M. to 5 P.M. EST (2 Days)

      Eastern Time Zone
      (7 A.M. to 4 P.M. Central or 6 A.M. to 3 P.M. Mountain)

      Live Interactive Online Training



      Course Reviews (4.8/5): 

      Summary: This course provides a comprehensive overview of the transport, fate, and attenuation of metals in soil and groundwater using the "Scenarios Approach". The Scenarios Approach was developed by Savannah River National Laboratory to provide a quick and easy framework for improving the assessment and remediation of inorganic contaminated sites. The Scenarios Approach is based on the interpretation of plume geochemistry, geochemical gradients, and specific inorganic contaminant behavior in various geochemical settings (e.g., Cr(VI) instability under low redox conditions). Understanding metal behavior within various geochemical conditions provides an improved method for predicting metal contaminant transport and fate, and implementing effective remediation strategies. The course focuses on metals in soil and groundwater, and is also applicable to sediment, stormwater, and surface water.


      Course Topics:
      Principles of Metal Behavior in Soil and Groundwater

      Overview of the Scenarios Approach

      Source Configurations

      Designating Plume Segments

      Scenario Indicator Parameters:
      • Oxidation-Reduction Potential
      • Cation Exchange Capacity
      • Soil Iron Oxide Content
      Primary Modifying Factors:
      • pH
      • Total Dissolved Solids
      • Sulfur Species
      • Carbonate Alkalinity
      Secondary Modifying Factors:
      • Facilitated Transport
      • Source Type
      • Hydrogeology
      • Travel Time to Receptors
        		  

        Biogeochemical Gradients


        Six Scenario Behavior of:

        • Arsenic
        • Cadmium
        • Chromium (III)
        • Chromium (VI)
        • Copper
        • Lead
        • Nickel
        • Selenium
        • Zinc
        • Nitrate
        • Perchlorate
        Mercury Behavior

        Attenuation Conceptual Models

        U.S. EPA's Tiered Approach

        Data and Plume Analysis Tools

        Cost Influencing Factors

        Enhanced Metal Attenuation

        Remediation Technologies

        Considerations for Mining Sites

        Intended Audience: Environmental professionals seeking an improved understanding of metal transport, fate, and remediation in soil and groundwater.


        Education Level: Intermediate and advanced topics will be covered.

        Course Materials: 2026 updated course proceedings and reference material (192 color pages - PDF).


        Credit: 15 PDHs or 1.5 CEUs for completing 15 hours of instruction.

        Registration: $395, $295 per person for 2 to 9 people, $250 per person for 10 or more people on the same registration. Each registrant will receive their own link to join the training and may participate from any location with internet access. You may register online or by calling us at (800) 385-0783.


        Location: Anywhere you can get comfortable and online.

        About the Instructor: Erick McWayne has over thirty years of professional experience in environmental quality management and teaching related courses. As a consultant, he managed contaminated surface water, soil, and groundwater projects for the Department of Defense and other clients. He currently provides consulting support to environmental projects and teaches courses in environmental chemistry, hydrogeology, transport and fate, remediation, and water quality management with the University of California Davis and the National Environmental Management Academy (NEMA).

        Show details

      • PFAS Treatment in Drinking Water Course - Live Online Training

        • March 10, 2026
        • 8:00 AM
        • March 11, 2026
        • 5:00 PM
        • Live Online Training
        Register


        March 10 - 11, 2026, 8 A.M. to 5 P.M. EDT (2 Days)

        Eastern Time Zone
        (7 A.M. to 4 P.M. Central or 6 A.M. to 3 P.M. Mountain)

        Live Interactive Online Training


        Course Reviews (4.8/5): 


        This course provides a comprehensive overview of PFAS science, sources, water quality monitoring, treatment strategies, and effective treatment technologies for complying with PFAS drinking water standards. Drinking water regulations, analytical methods, technology selection, and alternative PFAS treatment and destruction technologies will also be discussed. Many topics covered are also applicable to treatment of municipal, industrial, and remediation derived wastewater containing PFAS.


        Course Topics

        PFAS Overview

          • What Are PFAS?

          • Environmental Challenges

          • Polymers vs. Non-Polymers


        Drinking Water Regulations

          • Federal MCLs for PFAS

          • Hazard Index Calculation
          • MCL Significant Figures

          • Rounding Requirements


        PFAS Regulation History

          • Phaseout of PFOA, PFOS, & Related Precursors

          • EPA's Lifetime Health Advisory Timeline
          • Recent Federal PFAS Regulations


        PFAS Sources

          • Production History

          • Common Source Types
          • Usage by Industry


        PFAS Detections in Drinking Water

          • National PFAS Detections

          • UCMR 5 Results


        PFAS Terminology

          • Classes & Subclasses

          • Perfluorinated vs. Polyfluorinated
          • Perfluoroalkyl Acids (PFAAs)

          • GenX

          • Precursors

          • Linear vs. Branched

          • Short-Chain vs. Long-Chain


        PFAS Health Effects

          • Animals

          • Humans


        Common PFAS Sources

          • Aqueous Film Forming Foam (AFFF)

          • Landfills
          • Wastewater Treatment Plants

          • Industrial Facilities


        PFAS Chemical Properties

          • Anionic Regulated PFAS

          • Hydrophilic Head & Hydrophobic Tail

          • Anion Exchange Capacity (AEC)

          • Partitioning


        PFAS Movement in the Environment

          • PFAS in Soil & Groundwater

          • Groundwater Plume Lengths

          • PFAS in Air & Rainwater

          • Precursor Transformation

        Drinking Water Sampling

          • Sampling Locations & Procedures

          • Initial PFAS Monitoring

          • Compliance Monitoring


        Analytical Methods

          • Methods 533 vs. 537.1

          • Suspended Sediment Issues

          • Isotope Dilution

          • Total Oxidizable Precursor Assay


        Interpreting Lab Results

          • Quality Assurance & Quality Control

          • Field Blanks

          • Lab Terminology


        General Drinking Water Treatment

          • Terminology

          • Competitive Sorption & Overshoot

          • Pretreatment

          • Disinfection Issues

          • Performance Monitoring

          • Media Reactivation and Disposal

          • Non-Treatment Options


        Best Available Technologies (BATs)

          • Granular Activated Carbon (GAC)

          • Anion Ion Exchange (AIX)

          • Reverse Osmosis (RO)

          • Nanofiltration (NF)


        Technology Selection & Pilot Testing


        GAC vs. AIX Case Studies


        BAT Drinking Water Treatment Costs


        Point of Use & Point of Entry Systems


        Other PFAS Treatment Technologies

          • Alternative Sorbents

          • Surface Active Foam Fractionation

          • Ozofractionation

          • Chemical Oxidation/Reduction

          • Supercritical Water Oxidation

          • Electrochemical Oxidation

          • Plasma Treatment

          • Sonochemical Treatment

          • Hydrothermal Liquefaction


        Review of Key Concepts


        Intended Audience: This course is intended for drinking water treatment professionals seeking an improved understanding of effective technologies and strategies for removing PFAS from public water supplies.


        Education Level: Introductory to advanced. General principles, current research, and advanced topics are presented to ensure all levels benefit from attending. Familiarity with general drinking water treatment is required. 


        Course Materials: 2026 updated course proceedings and references (310 color pages - PDF).


        Credit: 12 PDHs or 1.2 CEUs for completing 15 hours of instruction.


        Registration: $395, $295 per person for groups of 2 - 9 people, $250 per person for large groups of 10 or more on the same registration. Each registrant will receive their own link to join the training and may participate from any location with internet access. You may register online or by calling us at (800) 385-0783.


        Location: Your office or home - anywhere you can get comfortable and online.

        About the Instructor:  Erick McWayne has over thirty years of professional experience in environmental quality management and teaching related courses. As a consultant, he managed contaminated surface water, soil, and groundwater projects for the Department of Defense and other clients. He currently provides consulting support to environmental projects and teaches courses in contaminant chemistry, transport and fate, geochemistry, hydrogeology, and remediation with the University of California Davis and the National Environmental Management Academy (NEMA).

        Show details

      • Chlorinated Hydrocarbon Remediation Principles and Technologies for Soil, Vapor, and Groundwater Training Course - Live Online Training

        • March 24, 2026
        • 8:00 AM
        • March 25, 2026
        • 5:00 PM
        • Live Online Training
        Register


        March 24 - 25, 2026, 8 A.M. to 5 P.M. EDT (2 Days)

        Eastern Time Zone
        (7 A.M. to 4 P.M. Central or 6 A.M. to 3 P.M. Mountain)

        Live Interactive Online Training



        Course Reviews (4.7/5): 


        Summary: This course provides participants with a comprehensive overview of chlorinated VOC remediation principles, and proven technologies for soil, vapor, and groundwater. The training begins with a review of biogeochemistry and hydrogeologic factors that affect site characterization, remedy selection, and performance; followed by a discussion of common presumptive and innovative remedies. The 14-compartment model is used as a conceptual framework for examining remediation technology performance. The 21-compartment model is also presented for fractured rock and karst systems. The course includes a case study highlighting remedy selection and the application of multiple technologies to complex sites. The concepts and technologies presented are applicable to PCE, TCE, DCE, vinyl chloride, 1,1,1-TCA, DCA, CT, and other chlorinated VOCs including chlorinated benzenes, ethanes, ethenes, and methanes; 1,4-dioxane is also covered.


        Course Topics

        Chlorinated VOC Remediation Principles
          • Chlorinated VOC Properties
          • 1,4-Dioxane Properties
          • Matrix Storage and Back Diffusion
          • Contaminant Hydrogeology
          • High Resolution Site Characterization
          • Geologic Setting Types
          • Plume Stages
          • 14-Compartment Model Partitioning
          • Order of Magnitude Paradigm
          • Source and Plume Remediation
          • Common Remediation Technologies
          • Technology Performance
          • Feasibility and Pilot Testing
          • Remediation Modeling with PREMChlor


        Assistive Technologies
          • Directional Drilling
          • Fracturing
          • Cosolvent Flushing


        Degradation Technologies
          • Monitored Natural Attenuation
          • In Situ Bioremediation

          • In Situ Thermal

          • Permeable Reactive Barriers

          • In Situ Chemical Oxidation

             - Ozone

             - Hydrogen Peroxide

             - Peroxone

             - Permanganate

             - Persulfate

             - Percarbonate

        Degradation Technologies (cont.)

          • In Situ Chemical Reduction

             - Zero-Valent Iron (ZVI)

             - Stabilized ZVI Nanoparticles

             - ZVI Clay

             - ZVI Vegetable Oil Emulsion


        Recovery Technologies
          • Excavation
          • Soil Vapor Extraction
          • Pump and Treat


        Containment Technologies
          • Physical Barriers
          • Hydraulic Containment
          • Liquid Activated Carbon


        Remedy Selection & Case Study

          • Performance-Based Remedy Selection

          • Functional Remedial Objectives
          • Stakeholder Decision Drivers

          • Technology Hazards
          • Case Study Overview

          • 14-Compartment Model of Site

          • Case Study Remedial Objectives

          • Technology Feasibility Analysis
          • Combining Technologies

          • Implementation and Performance Monitoring

         

        Other CVOC Remediation Technologies


        Intended Audience: Consultants, engineers, regulatory agency staff, and others seeking an improved understanding of chlorinated hydrocarbon remediation principles and technologies.


        Education Level: Intermediate to advanced. Fundamental principles, current research, and advanced topics are presented to ensure all levels benefit from attending.


        Course Materials: 2026 updated course proceedings (408 color pages - PDF).


        Credit: 15 PDHs and 1.5 CEUs for completing 15 hours of instruction.


        Registration: $395, $295 per person for small groups of 2 - 9 people, or $250 per person for large groups of 10 or more on the same registrationEach registrant will receive their own link to join the training and may participate at any location with internet access. You may register online or by calling us at (800) 385-0783.


        Location: Anywhere you can get comfortable and online.

        About the Instructor: Erick McWayne has over thirty years of professional experience in environmental management and teaching related courses. As a consultant, he managed contaminated surface water, soil, and groundwater projects for the Department of Defense and other clients. He currently provides consulting support to environmental projects and teaches courses in contaminant chemistry, transport and fate, remediation, hydrogeology, and water quality management with the University of California Davis and the National Environmental Management Academy (NEMA).

        Show details

      • PFAS Transport, Fate, and Remediation in Soil, Surface Water, and Groundwater: Understanding and Managing Per- and Polyfluoroalkyl Substances Including PFOA and PFOS Course - Live Online Training

        • June 02, 2026
        • 8:00 AM
        • June 03, 2026
        • 5:00 PM
        • Live Online Training
        Register


        June 2 - 3, 2026, 8 A.M. to 5 P.M. EDT (2 Days)

        Eastern Time Zone
        (7 A.M. to 4 P.M. Central or 6 A.M. to 3 P.M. Mountain)

        Live Interactive Online Training



        Course Reviews (4.8/5): 


        This 2026 updated course provides a comprehensive overview of PFAS site management including the transport, fate, and remediation of per- and polyfluoroalkyl substances (PFAS) in soil, surface water, and groundwater. PFAS have been in use since the 1940s, are highly toxic, resist degradation, and are becoming increasingly regulated. This training begins with a review of PFAS sources, toxicity, and common forms detected in the environment including the ionized perfluoroalkyl acids (PFAA) such as perfluorooctanoate (PFOA), perfluorooctanesulfonate (PFOS), PFAA precursors, and newer PFAS including perfluorobutanesulfonate (PFBS), fluorotelomer substances, F-53B, ADONA, and GenX related chemicals such as hexafluoropropylene oxide dimer acid (HFPO-DA). The course then focuses on more advanced topics including PFAS transport, fate, site characterization, analytical methods, and effective remediation strategies for soil, surface water, and groundwater. Federal drinking water standards and drinking water treatment technologies are also covered.


        Course Topics

        PFAS 101 - The Basics

          • What Are PFAS?

          • Precursors and Degradates

          • Acronyms and Naming Conventions

          • Production History and Usage Trends

          • Replacement Chemistry

          • Sources and Modes of Release

          • Aqueous Film-Forming Foam (AFFF)
          • Detections in the Environment
          • Toxicity and Health Effects


        Physical and Chemical Properties

          • Physical Properties of PFAS

          • Fluorine Characteristics
          • Carbon-Fluorine Bonds

          • Acidic, Anionic, and Cationic Forms

          • Acid Disassociation Constants

          • Thermal and Chemical Stabilities

          • Solubilities

          • Organic Carbon Partitioning

          • Vapor Pressures

          • Henry's Law Partitioning

          • Octanol-Water Partitioning

          • Bioconcentration Factors


        PFAS Transport and Fate in Air, Soil, Surface Water, and Groundwater

          • 4-Phase and Interface Partitioning
          • Advection, Dispersion, and Diffusion

          • Atmospheric Deposition

          • Leaching

          • Micelle Formation

          • Abiotic Transformation

          • Biotransformation

          • PFAS Degradates

          • Bioaccumulation

        Site Characterization for PFAS

          • Investigation Strategies

          • Source Identification

          • Sampling Approaches and Precautions

          • Selecting PFAS Analytes

          • Analytical Methods

          • Air, Soil, and Water Framework

          • Data Evaluation

          • Qualitative Analysis

          • Exposure Pathways & Risk Assessment

          • Conceptual Site Model Development


        Soil Remediation Technologies

          • Soil Washing

          • Excavation and Off-Site Destruction

          • Stabilization/Solidification
          • Thermal Desorption

          • Incineration


        Water Remediation Technologies

          • Reverse Osmosis

          • Nanofiltration

          • Granular Activated Carbon and Biochar
          • Modified Anion Exchange

          • Surface Active Foam Fractionation

          • Ozofractionation

          • Electrochemical Oxidation

          • Argon Plasma Treatment

          • Sonochemical Treatment

          • Alkaline Hydrothermal Liquefaction

         

        PFAS Regulation and Guidance

          • Federal Drinking Water Standards (MCLs)

          • National Regulatory Status
          • International Regulatory Approaches

          • Guidance and Resources


        Intended Audience: This course is intended for environmental professionals seeking an improved understanding of PFAS chemistry, transport, fate, site characterization, and remediation.


        Education Level: Introductory to advanced. General principles, current research, and advanced topics are presented to ensure all levels benefit from attending. Familiarity with general chemistry and transport and fate principles is recommended. 


        Course Materials: 2026 updated course proceedings and references (302 color pages - PDF).


        Credit: 15 PDHs or 1.5 CEUs for completing 15 hours of instruction.


        Registration: $395, $295 per person for groups of 2 - 9 people, $250 per person for large groups of 10 or more on the same registration. Each registrant will receive their own link to join the training and may participate from any location with internet access. You may register online or by calling us at (800) 385-0783.


        Location: Your home or office - anywhere you can get comfortable and online.

        About the Instructor:  Erick McWayne has over thirty years of professional experience in environmental quality management and teaching related courses. As a consultant, he managed contaminated surface water, soil, and groundwater projects for the Department of Defense and other clients. He currently provides consulting support to environmental projects and teaches courses in contaminant chemistry, transport and fate, geochemistry, hydrogeology, and remediation with the University of California Davis and the National Environmental Management Academy (NEMA).

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      • Surface Water and Stormwater Pollutant Chemistry Principles and Applications to Monitoring and Treatment Training Course - Live Online Training

        • June 16, 2026
        • 8:00 AM
        • June 17, 2026
        • 5:00 PM
        • Live Online Training
        Register


        June 16 - 17, 2026, 8 A.M. to 5 P.M. EDT (2 Days)

        Eastern Time Zone
        (7 A.M. to 4 P.M. Central or 6 A.M. to 3 P.M. Mountain)

        Live Interactive Online Training



        Course Reviews (4.7/5): 


        Overview: This practical course provides a comprehensive overview of common surface water and stormwater pollutant sources and characteristics, contaminant behavior, treatment processes, current research, and emerging treatment technologies. Course sections are applicable to professionals working in surface water and stormwater quality management. The topics provide essential information for understanding and managing water pollutants for environmental protection and permit compliance.


        Course Topics

        Surface Water & Stormwater Chemistry
          • Pollutant Types & Sources
          • Pollutant Transport & Fate
          • Atmospheric Deposition
          • Contaminant Partitioning
          • Organic Pollutant Properties
          • Metal Pollutant Properties
          • Cation Exchange
          • Complexation & Speciation
          • Ion Precipitation
          • Particle Settling
          • Water Quality Monitoring
          • Redox Potential
          • Acidity (pH)
          • Alkalinity
          • Hardness
          • Conductivity
          • Grab versus Composite Sampling
          • Event Mean Concentrations (EMCs)
          • Pollutant Loading
          • Chemo/Pollutographs
          • Managing First Flush
          • Sediment Chemistry
          • Whole Effluent Toxicity (WET)

        Pollutant Properties
          • Thermal Pollution
          • Solids (Turbidity, TS, TSS, and SSC)
          • Total Dissolved Solids
          • Nanoparticles
          • Acid/Base Generating Material
          • Metals (Al, Ag, As, Cd, Cr, Cu, Fe, Pb, Hg, Ni, Pb, Se, Sb, and Zn)
          • Road Salts

          • Nitrogen
          • Phosphorus

          • Oxygen Demanding Pollutants

          • Petroleum Products

          • Antifreeze Glycols

          • Detergents, Soaps & Other Surfactants

        Pollutant Properties (cont.)

          • Endocrine Disrupting Chemicals (EDCs)

          • Persistent Organic Pollutants

          • PBDEs
          • PAHs
          • PCBs
          • Phthalates
          • Pesticides & Degradates

          • Micro-Rubber and 6PPDq

          • PFAS

          • Pathogens

          • Sewage & WWTP Indicators

        Treatment Processes and Performance Monitoring
          • Coagulation/Flocculation
          • Precipitation
          • Sedimentation
          • Flotation
          • Laminar Separation
          • Vortex Separation
          • Screening
          • Filtration
          • Sorption
          • Temperature Reduction
          • Acid/Base Neutralization
          • Volatilization
          • Disinfection
          • Biodegradation
          • Phytodegradation
          • Infiltration

          • Soil Reactions

          • Zero Valent Iron (ZVI)

          • Activated Carbon & Biochar

          • BMP Monitoring and Performance

          • Concentration vs. Load Reduction

          • Effluent Probability Method

          • Enhanced Nitrogen and Phosphorus Removal

          • Enhanced Metal and Organic Removal

          • Permeable Reactive Weirs


        Intended Audience: Water quality professionals seeking an improved understanding of surface water and stormwater pollutants, and their associated behavior and treatment. Scientists, engineers, enforcement staff, program managers, permit writers, and field staff will benefit from attending.


        Education Level: Introductory to advanced. General principles, current research, and advanced topics are presented to ensure all levels benefit from attending.


        Course Materials: 2026 updated course proceedings and references (344 color pages - PDF).


        Credit: 15 PDHs or 1.5 CEUs for completing 15 hours of instruction.


        Tuition: $395 individual, $295 per person for small groups of 2 - 9 people, and $250 per person for groups of 10 or more on the same registration. Register online or by calling us at (800) 385-0783.


        Location: Your home or office - anywhere you can get comfortable and online.

        About the Instructor: Erick McWayne has over thirty years of professional experience in water quality management and teaching related courses. As a consultant, he managed contaminated surface water and groundwater projects for the Department of Defense and other clients. He currently provides consulting support to environmental projects and teaches courses in contaminant chemistry, transport and fate, hydrogeology, remediation, stormwater science, and surface water management with the University of California Davis and the National Environmental Management Academy (NEMA). Between teaching and consulting, he researches and develops new water treatment technologies. 

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