| Benning, Ruth | BWON Panel | Want to understand the emerging issues in the 30 year old BWON program? Want an opportunity to ask BWON questions to the leading experts in the field? Emerging Enforcement issues? What does the EPA look for in a BWON audit? This is the panel to attend. |
| Benning, Ruth | Frequently Missed BWON Streams | There are BWON streams common to nearly every refinery and chemical plant. Interstage coolers, compressor lube oil, flare knock-out pots, etc. For a complete list of streams frequently missed at chemical plants and refineries attend the class and hear Ruth Benning cover the details of waste streams covered by 40 CFR Part 61 Subpart FF. |
| O'Neill, Craig | Advancement in Optical Gas Imaging Technology | As the global leader in Optical Gas Imaging solutions for many years, Teledyne FLIR has empowered oil and gas companies to use advanced technology, like OGI, for their LDAR programs to reduce emissions. With the help from our customers who know the most about what is needed in an OGI camera, Teledyne FLIR is excited to present on advancements in OGI technology We listened to our customers, we took notes on what the market wants and now we are taking action to advance our market-leading solutions. |
| Zhang, Qi | Air Dispersion Modeling Basics for Permitting | This training aims to provide some basics of air dispersion modeling procedures for air permit applications. Air dispersion modeling analysis is a key part to any Prevention of Significant Deterioration (PSD) permit application process to demonstrate a project is in compliance with the National Ambient Air Quality Standards (NAAQS), and the PSD increment requirements. Louisiana Department of Environmental Quality (LDEQ) currently does not require air dispersion modeling to be submitted with State Minor Permit Applications. On the other hand, the Texas Commission on Environmental Quality (TCEQ) does require air impact analysis with dispersion modeling for any minor or major New Source Review (NSR) permit applications. A dispersion modeling analysis starts with a significant impact analysis (SIA) to include all project-wide emission increases for all criteria pollutants. The presentation will cover the basics of setting up sources, buildings, property boundaries or fence lines and receptor grids, along with terrain processing and meteorological data parameters. Should impacts of any modeled pollutants are greater than the significant impact level (SIL), an area of impact (AOI) will be determined, and the analysis will move forward with a cumulative analysis, including nearby source impacts and background concentrations for the NAAQS analysis. PSD increment will also need to be addressed. A cause and contribution, also known as the culpability analysis, will follow if the cumulative analysis shows any exceedances to the NAAQS or PSD increment standards. As time allows, this training will also walk through the air toxics modeling requirements of the LDEQ and the health effects analysis procedures of the TCEQ. |
| Benning, Ruth | BWON Panel | Want to understand the emerging issues in the 30 year old BWON program? Want an opportunity to ask BWON questions to the leading experts in the field? Emerging Enforcement issues? What does the EPA look for in a BWON audit? This is the panel to attend. |
| Benning, Ruth | Frequently Missed BWON Streams | There are BWON streams common to nearly every refinery and chemical plant. Interstage coolers, compressor lube oil, flare knock-out pots, etc. For a complete list of streams frequently missed at chemical plants and refineries attend the class and hear Ruth Benning cover the details of waste streams covered by 40 CFR Part 61 Subpart FF. |
| Smith, Mark | How to Automate EPA Compliance and Avoid Methane Taxes Using Autonomous LDAR | · Real-time visual VOC Gas Leak Detection and quantification without the false negatives & positives associated with competing technology. · Our non-invasive tank monitoring is as accurate as guided wave radar and generates you carbon offsets by never opening the thief catch. · Our PPE Detection AI model automatically detects employees on-site to determine if they're wearing a hard hat as required. · Instantly detect compressor run status and prevent costly failures and downtime, keeping you on top of your machinery. · Using Visual AI, our 360° HD camera detects smoke & fire autonomously and notifies you when anything is out of line. · Our system detects liquid leaks instantly to prevent costly failures, before they become 7-figure disasters. · Visually verify that your ECD's are working correctly with our 360° HD optical camera to avoid fines. · Automatically record & log your pumper truck loadouts. Automatically comply with new load-out regulations & provide proof of emission events. · Instantly detect pop-off events and prevent costly failures and downtime using continuously learning AI Machine Models. · Eliminate your gate operators with virtual gate guard using Autonomous365's Visual AI system to detect vehicles. |
| O'Neill, Craig | Advancement in Optical Gas Imaging Technology | As the global leader in Optical Gas Imaging solutions for many years, Teledyne FLIR has empowered oil and gas companies to use advanced technology, like OGI, for their LDAR programs to reduce emissions. With the help from our customers who know the most about what is needed in an OGI camera, Teledyne FLIR is excited to present on advancements in OGI technology We listened to our customers, we took notes on what the market wants and now we are taking action to advance our market-leading solutions. |
| Zhang, Qi | Air Dispersion Modeling Basics for Permitting | This training aims to provide some basics of air dispersion modeling procedures for air permit applications. Air dispersion modeling analysis is a key part to any Prevention of Significant Deterioration (PSD) permit application process to demonstrate a project is in compliance with the National Ambient Air Quality Standards (NAAQS), and the PSD increment requirements. Louisiana Department of Environmental Quality (LDEQ) currently does not require air dispersion modeling to be submitted with State Minor Permit Applications. On the other hand, the Texas Commission on Environmental Quality (TCEQ) does require air impact analysis with dispersion modeling for any minor or major New Source Review (NSR) permit applications. A dispersion modeling analysis starts with a significant impact analysis (SIA) to include all project-wide emission increases for all criteria pollutants. The presentation will cover the basics of setting up sources, buildings, property boundaries or fence lines and receptor grids, along with terrain processing and meteorological data parameters. Should impacts of any modeled pollutants are greater than the significant impact level (SIL), an area of impact (AOI) will be determined, and the analysis will move forward with a cumulative analysis, including nearby source impacts and background concentrations for the NAAQS analysis. PSD increment will also need to be addressed. A cause and contribution, also known as the culpability analysis, will follow if the cumulative analysis shows any exceedances to the NAAQS or PSD increment standards. As time allows, this training will also walk through the air toxics modeling requirements of the LDEQ and the health effects analysis procedures of the TCEQ. |
| Benning, Ruth | BWON Panel | Want to understand the emerging issues in the 30 year old BWON program? Want an opportunity to ask BWON questions to the leading experts in the field? Emerging Enforcement issues? What does the EPA look for in a BWON audit? This is the panel to attend. |
| Benning, Ruth | Frequently Missed BWON Streams | There are BWON streams common to nearly every refinery and chemical plant. Interstage coolers, compressor lube oil, flare knock-out pots, etc. For a complete list of streams frequently missed at chemical plants and refineries attend the class and hear Ruth Benning cover the details of waste streams covered by 40 CFR Part 61 Subpart FF. |
| Smith, Mark | How to Automate EPA Compliance and Avoid Methane Taxes Using Autonomous LDAR | · Real-time visual VOC Gas Leak Detection and quantification without the false negatives & positives associated with competing technology. · Our non-invasive tank monitoring is as accurate as guided wave radar and generates you carbon offsets by never opening the thief catch. · Our PPE Detection AI model automatically detects employees on-site to determine if they're wearing a hard hat as required. · Instantly detect compressor run status and prevent costly failures and downtime, keeping you on top of your machinery. · Using Visual AI, our 360° HD camera detects smoke & fire autonomously and notifies you when anything is out of line. · Our system detects liquid leaks instantly to prevent costly failures, before they become 7-figure disasters. · Visually verify that your ECD's are working correctly with our 360° HD optical camera to avoid fines. · Automatically record & log your pumper truck loadouts. Automatically comply with new load-out regulations & provide proof of emission events. · Instantly detect pop-off events and prevent costly failures and downtime using continuously learning AI Machine Models. · Eliminate your gate operators with virtual gate guard using Autonomous365's Visual AI system to detect vehicles. |
| O'Neill, Craig | Advancement in Optical Gas Imaging Technology | As the global leader in Optical Gas Imaging solutions for many years, Teledyne FLIR has empowered oil and gas companies to use advanced technology, like OGI, for their LDAR programs to reduce emissions. With the help from our customers who know the most about what is needed in an OGI camera, Teledyne FLIR is excited to present on advancements in OGI technology We listened to our customers, we took notes on what the market wants and now we are taking action to advance our market-leading solutions. |
| Zhang, Qi | Air Dispersion Modeling Basics for Permitting | This training aims to provide some basics of air dispersion modeling procedures for air permit applications. Air dispersion modeling analysis is a key part to any Prevention of Significant Deterioration (PSD) permit application process to demonstrate a project is in compliance with the National Ambient Air Quality Standards (NAAQS), and the PSD increment requirements. Louisiana Department of Environmental Quality (LDEQ) currently does not require air dispersion modeling to be submitted with State Minor Permit Applications. On the other hand, the Texas Commission on Environmental Quality (TCEQ) does require air impact analysis with dispersion modeling for any minor or major New Source Review (NSR) permit applications. A dispersion modeling analysis starts with a significant impact analysis (SIA) to include all project-wide emission increases for all criteria pollutants. The presentation will cover the basics of setting up sources, buildings, property boundaries or fence lines and receptor grids, along with terrain processing and meteorological data parameters. Should impacts of any modeled pollutants are greater than the significant impact level (SIL), an area of impact (AOI) will be determined, and the analysis will move forward with a cumulative analysis, including nearby source impacts and background concentrations for the NAAQS analysis. PSD increment will also need to be addressed. A cause and contribution, also known as the culpability analysis, will follow if the cumulative analysis shows any exceedances to the NAAQS or PSD increment standards. As time allows, this training will also walk through the air toxics modeling requirements of the LDEQ and the health effects analysis procedures of the TCEQ. |
| Benning, Ruth | Frequently Missed BWON Streams | There are BWON streams common to nearly every refinery and chemical plant. Interstage coolers, compressor lube oil, flare knock-out pots, etc. For a complete list of streams frequently missed at chemical plants and refineries attend the class and hear Ruth Benning cover the details of waste streams covered by 40 CFR Part 61 Subpart FF. |
| Smith, Mark | How to Automate EPA Compliance and Avoid Methane Taxes Using Autonomous LDAR | · Real-time visual VOC Gas Leak Detection and quantification without the false negatives & positives associated with competing technology. · Our non-invasive tank monitoring is as accurate as guided wave radar and generates you carbon offsets by never opening the thief catch. · Our PPE Detection AI model automatically detects employees on-site to determine if they're wearing a hard hat as required. · Instantly detect compressor run status and prevent costly failures and downtime, keeping you on top of your machinery. · Using Visual AI, our 360° HD camera detects smoke & fire autonomously and notifies you when anything is out of line. · Our system detects liquid leaks instantly to prevent costly failures, before they become 7-figure disasters. · Visually verify that your ECD's are working correctly with our 360° HD optical camera to avoid fines. · Automatically record & log your pumper truck loadouts. Automatically comply with new load-out regulations & provide proof of emission events. · Instantly detect pop-off events and prevent costly failures and downtime using continuously learning AI Machine Models. · Eliminate your gate operators with virtual gate guard using Autonomous365's Visual AI system to detect vehicles. |
| O'Neill, Craig | Advancement in Optical Gas Imaging Technology | As the global leader in Optical Gas Imaging solutions for many years, Teledyne FLIR has empowered oil and gas companies to use advanced technology, like OGI, for their LDAR programs to reduce emissions. With the help from our customers who know the most about what is needed in an OGI camera, Teledyne FLIR is excited to present on advancements in OGI technology We listened to our customers, we took notes on what the market wants and now we are taking action to advance our market-leading solutions. |
| Benning, Ruth | Frequently Missed BWON Streams | There are BWON streams common to nearly every refinery and chemical plant. Interstage coolers, compressor lube oil, flare knock-out pots, etc. For a complete list of streams frequently missed at chemical plants and refineries attend the class and hear Ruth Benning cover the details of waste streams covered by 40 CFR Part 61 Subpart FF. |
| Smith, Mark | How to Automate EPA Compliance and Avoid Methane Taxes Using Autonomous LDAR | · Real-time visual VOC Gas Leak Detection and quantification without the false negatives & positives associated with competing technology. · Our non-invasive tank monitoring is as accurate as guided wave radar and generates you carbon offsets by never opening the thief catch. · Our PPE Detection AI model automatically detects employees on-site to determine if they're wearing a hard hat as required. · Instantly detect compressor run status and prevent costly failures and downtime, keeping you on top of your machinery. · Using Visual AI, our 360° HD camera detects smoke & fire autonomously and notifies you when anything is out of line. · Our system detects liquid leaks instantly to prevent costly failures, before they become 7-figure disasters. · Visually verify that your ECD's are working correctly with our 360° HD optical camera to avoid fines. · Automatically record & log your pumper truck loadouts. Automatically comply with new load-out regulations & provide proof of emission events. · Instantly detect pop-off events and prevent costly failures and downtime using continuously learning AI Machine Models. · Eliminate your gate operators with virtual gate guard using Autonomous365's Visual AI system to detect vehicles. |
| O'Neill, Craig | Advancement in Optical Gas Imaging Technology | As the global leader in Optical Gas Imaging solutions for many years, Teledyne FLIR has empowered oil and gas companies to use advanced technology, like OGI, for their LDAR programs to reduce emissions. With the help from our customers who know the most about what is needed in an OGI camera, Teledyne FLIR is excited to present on advancements in OGI technology We listened to our customers, we took notes on what the market wants and now we are taking action to advance our market-leading solutions. |
| Smith, Mark | How to Automate EPA Compliance and Avoid Methane Taxes Using Autonomous LDAR | · Real-time visual VOC Gas Leak Detection and quantification without the false negatives & positives associated with competing technology. · Our non-invasive tank monitoring is as accurate as guided wave radar and generates you carbon offsets by never opening the thief catch. · Our PPE Detection AI model automatically detects employees on-site to determine if they're wearing a hard hat as required. · Instantly detect compressor run status and prevent costly failures and downtime, keeping you on top of your machinery. · Using Visual AI, our 360° HD camera detects smoke & fire autonomously and notifies you when anything is out of line. · Our system detects liquid leaks instantly to prevent costly failures, before they become 7-figure disasters. · Visually verify that your ECD's are working correctly with our 360° HD optical camera to avoid fines. · Automatically record & log your pumper truck loadouts. Automatically comply with new load-out regulations & provide proof of emission events. · Instantly detect pop-off events and prevent costly failures and downtime using continuously learning AI Machine Models. · Eliminate your gate operators with virtual gate guard using Autonomous365's Visual AI system to detect vehicles. |
| O'Neill, Craig | Advancement in Optical Gas Imaging Technology | As the global leader in Optical Gas Imaging solutions for many years, Teledyne FLIR has empowered oil and gas companies to use advanced technology, like OGI, for their LDAR programs to reduce emissions. With the help from our customers who know the most about what is needed in an OGI camera, Teledyne FLIR is excited to present on advancements in OGI technology We listened to our customers, we took notes on what the market wants and now we are taking action to advance our market-leading solutions. |
| Zhang, Qi | Air Dispersion Modeling Basics for Permitting | This training aims to provide some basics of air dispersion modeling procedures for air permit applications. Air dispersion modeling analysis is a key part to any Prevention of Significant Deterioration (PSD) permit application process to demonstrate a project is in compliance with the National Ambient Air Quality Standards (NAAQS), and the PSD increment requirements. Louisiana Department of Environmental Quality (LDEQ) currently does not require air dispersion modeling to be submitted with State Minor Permit Applications. On the other hand, the Texas Commission on Environmental Quality (TCEQ) does require air impact analysis with dispersion modeling for any minor or major New Source Review (NSR) permit applications. A dispersion modeling analysis starts with a significant impact analysis (SIA) to include all project-wide emission increases for all criteria pollutants. The presentation will cover the basics of setting up sources, buildings, property boundaries or fence lines and receptor grids, along with terrain processing and meteorological data parameters. Should impacts of any modeled pollutants are greater than the significant impact level (SIL), an area of impact (AOI) will be determined, and the analysis will move forward with a cumulative analysis, including nearby source impacts and background concentrations for the NAAQS analysis. PSD increment will also need to be addressed. A cause and contribution, also known as the culpability analysis, will follow if the cumulative analysis shows any exceedances to the NAAQS or PSD increment standards. As time allows, this training will also walk through the air toxics modeling requirements of the LDEQ and the health effects analysis procedures of the TCEQ. |
| O'Neill, Craig | Advancement in Optical Gas Imaging Technology | As the global leader in Optical Gas Imaging solutions for many years, Teledyne FLIR has empowered oil and gas companies to use advanced technology, like OGI, for their LDAR programs to reduce emissions. With the help from our customers who know the most about what is needed in an OGI camera, Teledyne FLIR is excited to present on advancements in OGI technology We listened to our customers, we took notes on what the market wants and now we are taking action to advance our market-leading solutions. |
| Zhang, Qi | Air Dispersion Modeling Basics for Permitting | This training aims to provide some basics of air dispersion modeling procedures for air permit applications. Air dispersion modeling analysis is a key part to any Prevention of Significant Deterioration (PSD) permit application process to demonstrate a project is in compliance with the National Ambient Air Quality Standards (NAAQS), and the PSD increment requirements. Louisiana Department of Environmental Quality (LDEQ) currently does not require air dispersion modeling to be submitted with State Minor Permit Applications. On the other hand, the Texas Commission on Environmental Quality (TCEQ) does require air impact analysis with dispersion modeling for any minor or major New Source Review (NSR) permit applications. A dispersion modeling analysis starts with a significant impact analysis (SIA) to include all project-wide emission increases for all criteria pollutants. The presentation will cover the basics of setting up sources, buildings, property boundaries or fence lines and receptor grids, along with terrain processing and meteorological data parameters. Should impacts of any modeled pollutants are greater than the significant impact level (SIL), an area of impact (AOI) will be determined, and the analysis will move forward with a cumulative analysis, including nearby source impacts and background concentrations for the NAAQS analysis. PSD increment will also need to be addressed. A cause and contribution, also known as the culpability analysis, will follow if the cumulative analysis shows any exceedances to the NAAQS or PSD increment standards. As time allows, this training will also walk through the air toxics modeling requirements of the LDEQ and the health effects analysis procedures of the TCEQ. |
| Benning, Ruth | BWON Panel | Want to understand the emerging issues in the 30 year old BWON program? Want an opportunity to ask BWON questions to the leading experts in the field? Emerging Enforcement issues? What does the EPA look for in a BWON audit? This is the panel to attend. |
| Benning, Ruth | Frequently Missed BWON Streams | There are BWON streams common to nearly every refinery and chemical plant. Interstage coolers, compressor lube oil, flare knock-out pots, etc. For a complete list of streams frequently missed at chemical plants and refineries attend the class and hear Ruth Benning cover the details of waste streams covered by 40 CFR Part 61 Subpart FF. |
| Smith, Mark | How to Automate EPA Compliance and Avoid Methane Taxes Using Autonomous LDAR | · Real-time visual VOC Gas Leak Detection and quantification without the false negatives & positives associated with competing technology. · Our non-invasive tank monitoring is as accurate as guided wave radar and generates you carbon offsets by never opening the thief catch. · Our PPE Detection AI model automatically detects employees on-site to determine if they're wearing a hard hat as required. · Instantly detect compressor run status and prevent costly failures and downtime, keeping you on top of your machinery. · Using Visual AI, our 360° HD camera detects smoke & fire autonomously and notifies you when anything is out of line. · Our system detects liquid leaks instantly to prevent costly failures, before they become 7-figure disasters. · Visually verify that your ECD's are working correctly with our 360° HD optical camera to avoid fines. · Automatically record & log your pumper truck loadouts. Automatically comply with new load-out regulations & provide proof of emission events. · Instantly detect pop-off events and prevent costly failures and downtime using continuously learning AI Machine Models. · Eliminate your gate operators with virtual gate guard using Autonomous365's Visual AI system to detect vehicles. |
| O'Neill, Craig | Advancement in Optical Gas Imaging Technology | As the global leader in Optical Gas Imaging solutions for many years, Teledyne FLIR has empowered oil and gas companies to use advanced technology, like OGI, for their LDAR programs to reduce emissions. With the help from our customers who know the most about what is needed in an OGI camera, Teledyne FLIR is excited to present on advancements in OGI technology We listened to our customers, we took notes on what the market wants and now we are taking action to advance our market-leading solutions. |
| Smith, Mark | How to Automate EPA Compliance and Avoid Methane Taxes Using Autonomous LDAR | · Real-time visual VOC Gas Leak Detection and quantification without the false negatives & positives associated with competing technology. · Our non-invasive tank monitoring is as accurate as guided wave radar and generates you carbon offsets by never opening the thief catch. · Our PPE Detection AI model automatically detects employees on-site to determine if they're wearing a hard hat as required. · Instantly detect compressor run status and prevent costly failures and downtime, keeping you on top of your machinery. · Using Visual AI, our 360° HD camera detects smoke & fire autonomously and notifies you when anything is out of line. · Our system detects liquid leaks instantly to prevent costly failures, before they become 7-figure disasters. · Visually verify that your ECD's are working correctly with our 360° HD optical camera to avoid fines. · Automatically record & log your pumper truck loadouts. Automatically comply with new load-out regulations & provide proof of emission events. · Instantly detect pop-off events and prevent costly failures and downtime using continuously learning AI Machine Models. · Eliminate your gate operators with virtual gate guard using Autonomous365's Visual AI system to detect vehicles. |
| O'Neill, Craig | Advancement in Optical Gas Imaging Technology | As the global leader in Optical Gas Imaging solutions for many years, Teledyne FLIR has empowered oil and gas companies to use advanced technology, like OGI, for their LDAR programs to reduce emissions. With the help from our customers who know the most about what is needed in an OGI camera, Teledyne FLIR is excited to present on advancements in OGI technology We listened to our customers, we took notes on what the market wants and now we are taking action to advance our market-leading solutions. |
| Benning, Ruth | BWON Panel | Want to understand the emerging issues in the 30 year old BWON program? Want an opportunity to ask BWON questions to the leading experts in the field? Emerging Enforcement issues? What does the EPA look for in a BWON audit? This is the panel to attend. |
| Benning, Ruth | Frequently Missed BWON Streams | There are BWON streams common to nearly every refinery and chemical plant. Interstage coolers, compressor lube oil, flare knock-out pots, etc. For a complete list of streams frequently missed at chemical plants and refineries attend the class and hear Ruth Benning cover the details of waste streams covered by 40 CFR Part 61 Subpart FF. |
| O'Neill, Craig | Advancement in Optical Gas Imaging Technology | As the global leader in Optical Gas Imaging solutions for many years, Teledyne FLIR has empowered oil and gas companies to use advanced technology, like OGI, for their LDAR programs to reduce emissions. With the help from our customers who know the most about what is needed in an OGI camera, Teledyne FLIR is excited to present on advancements in OGI technology We listened to our customers, we took notes on what the market wants and now we are taking action to advance our market-leading solutions. |
| Benning, Ruth | Frequently Missed BWON Streams | There are BWON streams common to nearly every refinery and chemical plant. Interstage coolers, compressor lube oil, flare knock-out pots, etc. For a complete list of streams frequently missed at chemical plants and refineries attend the class and hear Ruth Benning cover the details of waste streams covered by 40 CFR Part 61 Subpart FF. |
| O'Neill, Craig | Advancement in Optical Gas Imaging Technology | As the global leader in Optical Gas Imaging solutions for many years, Teledyne FLIR has empowered oil and gas companies to use advanced technology, like OGI, for their LDAR programs to reduce emissions. With the help from our customers who know the most about what is needed in an OGI camera, Teledyne FLIR is excited to present on advancements in OGI technology We listened to our customers, we took notes on what the market wants and now we are taking action to advance our market-leading solutions. |
| Benning, Ruth | BWON Panel | Want to understand the emerging issues in the 30 year old BWON program? Want an opportunity to ask BWON questions to the leading experts in the field? Emerging Enforcement issues? What does the EPA look for in a BWON audit? This is the panel to attend. |
| Benning, Ruth | Frequently Missed BWON Streams | There are BWON streams common to nearly every refinery and chemical plant. Interstage coolers, compressor lube oil, flare knock-out pots, etc. For a complete list of streams frequently missed at chemical plants and refineries attend the class and hear Ruth Benning cover the details of waste streams covered by 40 CFR Part 61 Subpart FF. |
| Smith, Mark | How to Automate EPA Compliance and Avoid Methane Taxes Using Autonomous LDAR | · Real-time visual VOC Gas Leak Detection and quantification without the false negatives & positives associated with competing technology. · Our non-invasive tank monitoring is as accurate as guided wave radar and generates you carbon offsets by never opening the thief catch. · Our PPE Detection AI model automatically detects employees on-site to determine if they're wearing a hard hat as required. · Instantly detect compressor run status and prevent costly failures and downtime, keeping you on top of your machinery. · Using Visual AI, our 360° HD camera detects smoke & fire autonomously and notifies you when anything is out of line. · Our system detects liquid leaks instantly to prevent costly failures, before they become 7-figure disasters. · Visually verify that your ECD's are working correctly with our 360° HD optical camera to avoid fines. · Automatically record & log your pumper truck loadouts. Automatically comply with new load-out regulations & provide proof of emission events. · Instantly detect pop-off events and prevent costly failures and downtime using continuously learning AI Machine Models. · Eliminate your gate operators with virtual gate guard using Autonomous365's Visual AI system to detect vehicles. |
| O'Neill, Craig | Advancement in Optical Gas Imaging Technology | As the global leader in Optical Gas Imaging solutions for many years, Teledyne FLIR has empowered oil and gas companies to use advanced technology, like OGI, for their LDAR programs to reduce emissions. With the help from our customers who know the most about what is needed in an OGI camera, Teledyne FLIR is excited to present on advancements in OGI technology We listened to our customers, we took notes on what the market wants and now we are taking action to advance our market-leading solutions. |
| Zhang, Qi | Air Dispersion Modeling Basics for Permitting | This training aims to provide some basics of air dispersion modeling procedures for air permit applications. Air dispersion modeling analysis is a key part to any Prevention of Significant Deterioration (PSD) permit application process to demonstrate a project is in compliance with the National Ambient Air Quality Standards (NAAQS), and the PSD increment requirements. Louisiana Department of Environmental Quality (LDEQ) currently does not require air dispersion modeling to be submitted with State Minor Permit Applications. On the other hand, the Texas Commission on Environmental Quality (TCEQ) does require air impact analysis with dispersion modeling for any minor or major New Source Review (NSR) permit applications. A dispersion modeling analysis starts with a significant impact analysis (SIA) to include all project-wide emission increases for all criteria pollutants. The presentation will cover the basics of setting up sources, buildings, property boundaries or fence lines and receptor grids, along with terrain processing and meteorological data parameters. Should impacts of any modeled pollutants are greater than the significant impact level (SIL), an area of impact (AOI) will be determined, and the analysis will move forward with a cumulative analysis, including nearby source impacts and background concentrations for the NAAQS analysis. PSD increment will also need to be addressed. A cause and contribution, also known as the culpability analysis, will follow if the cumulative analysis shows any exceedances to the NAAQS or PSD increment standards. As time allows, this training will also walk through the air toxics modeling requirements of the LDEQ and the health effects analysis procedures of the TCEQ. |
| Smith, Mark | How to Automate EPA Compliance and Avoid Methane Taxes Using Autonomous LDAR | · Real-time visual VOC Gas Leak Detection and quantification without the false negatives & positives associated with competing technology. · Our non-invasive tank monitoring is as accurate as guided wave radar and generates you carbon offsets by never opening the thief catch. · Our PPE Detection AI model automatically detects employees on-site to determine if they're wearing a hard hat as required. · Instantly detect compressor run status and prevent costly failures and downtime, keeping you on top of your machinery. · Using Visual AI, our 360° HD camera detects smoke & fire autonomously and notifies you when anything is out of line. · Our system detects liquid leaks instantly to prevent costly failures, before they become 7-figure disasters. · Visually verify that your ECD's are working correctly with our 360° HD optical camera to avoid fines. · Automatically record & log your pumper truck loadouts. Automatically comply with new load-out regulations & provide proof of emission events. · Instantly detect pop-off events and prevent costly failures and downtime using continuously learning AI Machine Models. · Eliminate your gate operators with virtual gate guard using Autonomous365's Visual AI system to detect vehicles. |
