The CATALOG team has produced an open-source decision-support software tool – “PRIMA”- that makes recommendations for promising UOW characterization campaigns. Click to read more!
1 of 10The CATALOG team has produced an open-source decision-support software tool – “PRIMA”- that makes recommendations for promising UOW characterization campaigns. Click to read more!
2 of 10 3 of 10 4 of 10 5 of 10 6 of 10 7 of 10 8 of 10 9 of 10 10 of 10The CATALOG team has produced an open-source decision-support software tool – “PRIMA”- that makes recommendations for promising UOW characterization campaigns. Click to read more!
1 of 18The CATALOG team has produced an open-source decision-support software tool – “PRIMA”- that makes recommendations for promising UOW characterization campaigns. Click to read more!
2 of 18Combine the data using geographic information to generate potential targets with a higher degree of confidence.
3 of 18Combine the data using geographic information to generate potential targets with a higher degree of confidence.
4 of 18Unsupervised computer vision algorithms combined with advanced supervised models (U-Net) can yield locations to be compared against regulatory databases.
5 of 18Unsupervised computer vision algorithms combined with advanced supervised models (U-Net) can yield locations to be compared against regulatory databases.
6 of 18Conducting an aerial survey of an area of interest using magnetometry, LiDAR, or (other TBD) is an effective means of collecting data on potential well site locations and well site characterization for a large area.
7 of 18Conducting an aerial survey of an area of interest using magnetometry, LiDAR, or (other TBD) is an effective means of collecting data on potential well site locations and well site characterization for a large area.
8 of 18CATALOG offers expertise in planning field campaigns, collecting data in real-world environments, and developing workflows to rapidly interpret results within communities with high UOW potential.
9 of 18CATALOG offers expertise in planning field campaigns, collecting data in real-world environments, and developing workflows to rapidly interpret results within communities with high UOW potential.
10 of 18The CATALOG team has tested a variety of approaches including OGI, TDLAS, flux chambers, methods coupling concentration with plume dispersion modeling, and drone-based detection.
11 of 18The CATALOG team has tested a variety of approaches including OGI, TDLAS, flux chambers, methods coupling concentration with plume dispersion modeling, and drone-based detection.
12 of 18Hazards such as groundwater impacts, contamination, proximity to receptors, and emissions of hazardous gases like H2S, as well as physical characteristics are all pieces of desired information.
13 of 18Hazards such as groundwater impacts, contamination, proximity to receptors, and emissions of hazardous gases like H2S, as well as physical characteristics are all pieces of desired information.
14 of 18The CATALOG team is building a standardized, composite national well geodatabase to help identify UOWs, and share related data for surveys and the CATALOG efforts.
15 of 18The CATALOG team is building a standardized, composite national well geodatabase to help identify UOWs, and share related data for surveys and the CATALOG efforts.
16 of 18Systematically compile publicly available digital data at progressively smaller scales prior to embarking on field campaigns.
17 of 18Systematically compile publicly available digital data at progressively smaller scales prior to embarking on field campaigns.
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