�ݺ�ߣshows by User: JoshuaOrris

�ݺ�ߣshows by User: JoshuaOrris / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: JoshuaOrris / Tue, 11 Jun 2024 00:54:55 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: JoshuaOrris Optimizing Post Remediation Groundwater Performance with Enhanced Microbiological Analyses /slideshow/optimizing-post-remediation-groundwater-performance-with-enhanced-microbiological-analysis-josh-orris-jack-sheldon-final-pdf/269613231 optimizingpostremediationgroundwaterperformancewithenhancedmicrobiologicalanalysis-joshorrisjackshel-240611005455-b49373d3
Results of geophysics and pneumatic injection pilot tests during 2003 – 2007 yielded significant positive results for injection delivery design and contaminant mass treatment, resulting in permanent shut-down of an existing groundwater Pump & Treat system. Accessible source areas were subsequently removed (2011) by soil excavation and treated with the placement of Emulsified Vegetable Oil EVO and zero-valent iron ZVI to accelerate treatment of impacted groundwater in overburden and weathered fractured bedrock. Post pilot test and post remediation groundwater monitoring has included analyses of CVOCs, organic fatty acids, dissolved gases and QuantArray® -Chlor to quantify key microorganisms (e.g., Dehalococcoides, Dehalobacter, etc.) and functional genes (e.g., vinyl chloride reductase, methane monooxygenase, etc.) to assess potential for reductive dechlorination and aerobic cometabolism of CVOCs. In 2022, the first commercial application of MetaArray™ was performed at the site. MetaArray™ utilizes statistical analysis, such as principal component analysis and multivariate analysis to provide evidence that reductive dechlorination is active or even that it is slowing. This creates actionable data allowing users to save money by making important site management decisions earlier. The results of the MetaArray™ analysis’ support vector machine (SVM) identified groundwater monitoring wells with a 80% confidence that were characterized as either Limited for Reductive Decholorination or had a High Reductive Reduction Dechlorination potential. The results of MetaArray™ will be used to further optimize the site’s post remediation monitoring program for monitored natural attenuation. ]]>
Results of geophysics and pneumatic injection pilot tests during 2003 – 2007 yielded significant positive results for injection delivery design and contaminant mass treatment, resulting in permanent shut-down of an existing groundwater Pump & Treat system. Accessible source areas were subsequently removed (2011) by soil excavation and treated with the placement of Emulsified Vegetable Oil EVO and zero-valent iron ZVI to accelerate treatment of impacted groundwater in overburden and weathered fractured bedrock. Post pilot test and post remediation groundwater monitoring has included analyses of CVOCs, organic fatty acids, dissolved gases and QuantArray® -Chlor to quantify key microorganisms (e.g., Dehalococcoides, Dehalobacter, etc.) and functional genes (e.g., vinyl chloride reductase, methane monooxygenase, etc.) to assess potential for reductive dechlorination and aerobic cometabolism of CVOCs. In 2022, the first commercial application of MetaArray™ was performed at the site. MetaArray™ utilizes statistical analysis, such as principal component analysis and multivariate analysis to provide evidence that reductive dechlorination is active or even that it is slowing. This creates actionable data allowing users to save money by making important site management decisions earlier. The results of the MetaArray™ analysis’ support vector machine (SVM) identified groundwater monitoring wells with a 80% confidence that were characterized as either Limited for Reductive Decholorination or had a High Reductive Reduction Dechlorination potential. The results of MetaArray™ will be used to further optimize the site’s post remediation monitoring program for monitored natural attenuation. ]]> Tue, 11 Jun 2024 00:54:55 GMT /slideshow/optimizing-post-remediation-groundwater-performance-with-enhanced-microbiological-analysis-josh-orris-jack-sheldon-final-pdf/269613231 JoshuaOrris@slideshare.net(JoshuaOrris) Optimizing Post Remediation Groundwater Performance with Enhanced Microbiological Analyses JoshuaOrris Results of geophysics and pneumatic injection pilot tests during 2003 – 2007 yielded significant positive results for injection delivery design and contaminant mass treatment, resulting in permanent shut-down of an existing groundwater Pump & Treat system. Accessible source areas were subsequently removed (2011) by soil excavation and treated with the placement of Emulsified Vegetable Oil EVO and zero-valent iron ZVI to accelerate treatment of impacted groundwater in overburden and weathered fractured bedrock. Post pilot test and post remediation groundwater monitoring has included analyses of CVOCs, organic fatty acids, dissolved gases and QuantArray® -Chlor to quantify key microorganisms (e.g., Dehalococcoides, Dehalobacter, etc.) and functional genes (e.g., vinyl chloride reductase, methane monooxygenase, etc.) to assess potential for reductive dechlorination and aerobic cometabolism of CVOCs. In 2022, the first commercial application of MetaArray™ was performed at the site. MetaArray™ utilizes statistical analysis, such as principal component analysis and multivariate analysis to provide evidence that reductive dechlorination is active or even that it is slowing. This creates actionable data allowing users to save money by making important site management decisions earlier. The results of the MetaArray™ analysis’ support vector machine (SVM) identified groundwater monitoring wells with a 80% confidence that were characterized as either Limited for Reductive Decholorination or had a High Reductive Reduction Dechlorination potential. The results of MetaArray™ will be used to further optimize the site’s post remediation monitoring program for monitored natural attenuation. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/optimizingpostremediationgroundwaterperformancewithenhancedmicrobiologicalanalysis-joshorrisjackshel-240611005455-b49373d3-thumbnail.jpg?width=120&height=120&fit=bounds" /> Results of geophysics and pneumatic injection pilot tests during 2003 – 2007 yielded significant positive results for injection delivery design and contaminant mass treatment, resulting in permanent shut-down of an existing groundwater Pump & Treat system. Accessible source areas were subsequently removed (2011) by soil excavation and treated with the placement of Emulsified Vegetable Oil EVO and zero-valent iron ZVI to accelerate treatment of impacted groundwater in overburden and weathered fractured bedrock. Post pilot test and post remediation groundwater monitoring has included analyses of CVOCs, organic fatty acids, dissolved gases and QuantArray® -Chlor to quantify key microorganisms (e.g., Dehalococcoides, Dehalobacter, etc.) and functional genes (e.g., vinyl chloride reductase, methane monooxygenase, etc.) to assess potential for reductive dechlorination and aerobic cometabolism of CVOCs. In 2022, the first commercial application of MetaArray™ was performed at the site. MetaArray™ utilizes statistical analysis, such as principal component analysis and multivariate analysis to provide evidence that reductive dechlorination is active or even that it is slowing. This creates actionable data allowing users to save money by making important site management decisions earlier. The results of the MetaArray™ analysis’ support vector machine (SVM) identified groundwater monitoring wells with a 80% confidence that were characterized as either Limited for Reductive Decholorination or had a High Reductive Reduction Dechlorination potential. The results of MetaArray™ will be used to further optimize the site’s post remediation monitoring program for monitored natural attenuation.

Optimizing Post Remediation Groundwater Performance with Enhanced Microbiological Analyses from Joshua Orris

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0 Evolving Lifecycles with High Resolution Site Characterization (HRSC) and 3-Dimensional Conceptual Site Models in Complex Geology - Josh Orris FINAL.pdf /slideshow/evolving-lifecycles-with-high-resolution-site-characterization-hrsc-and-3-dimensional-conceptual-site-models-in-complex-geology-josh-orris-final-pdf/269613170 evolvinglifecycleswithhighresolutionsitecharacterizationhrscand3-dimensionalconceptualsitemodelsinco-240611004903-e56a6693
The incorporation of a 3DCSM and completion of HRSC provided a tool for enhanced, data-driven, decisions to support a change in remediation closure strategies. Currently, an approved pilot study has been obtained to shut-down the remediation systems (ISCO, P&T) and conduct a hydraulic study under non-pumping conditions. A separate micro-biological bench scale treatability study was competed that yielded positive results for an emerging innovative technology. As a result, a field pilot study has commenced with results expected in nine-twelve months. With the results of the hydraulic study, field pilot studies and an updated risk assessment leading site monitoring optimization cost lifecycle savings upwards of $15MM towards an alternatively evolved best available technology remediation closure strategy. ]]>
The incorporation of a 3DCSM and completion of HRSC provided a tool for enhanced, data-driven, decisions to support a change in remediation closure strategies. Currently, an approved pilot study has been obtained to shut-down the remediation systems (ISCO, P&T) and conduct a hydraulic study under non-pumping conditions. A separate micro-biological bench scale treatability study was competed that yielded positive results for an emerging innovative technology. As a result, a field pilot study has commenced with results expected in nine-twelve months. With the results of the hydraulic study, field pilot studies and an updated risk assessment leading site monitoring optimization cost lifecycle savings upwards of $15MM towards an alternatively evolved best available technology remediation closure strategy. ]]> Tue, 11 Jun 2024 00:49:02 GMT /slideshow/evolving-lifecycles-with-high-resolution-site-characterization-hrsc-and-3-dimensional-conceptual-site-models-in-complex-geology-josh-orris-final-pdf/269613170 JoshuaOrris@slideshare.net(JoshuaOrris) Evolving Lifecycles with High Resolution Site Characterization (HRSC) and 3-Dimensional Conceptual Site Models in Complex Geology - Josh Orris FINAL.pdf JoshuaOrris The incorporation of a 3DCSM and completion of HRSC provided a tool for enhanced, data-driven, decisions to support a change in remediation closure strategies. Currently, an approved pilot study has been obtained to shut-down the remediation systems (ISCO, P&T) and conduct a hydraulic study under non-pumping conditions. A separate micro-biological bench scale treatability study was competed that yielded positive results for an emerging innovative technology. As a result, a field pilot study has commenced with results expected in nine-twelve months. With the results of the hydraulic study, field pilot studies and an updated risk assessment leading site monitoring optimization cost lifecycle savings upwards of $15MM towards an alternatively evolved best available technology remediation closure strategy. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/evolvinglifecycleswithhighresolutionsitecharacterizationhrscand3-dimensionalconceptualsitemodelsinco-240611004903-e56a6693-thumbnail.jpg?width=120&height=120&fit=bounds" /> The incorporation of a 3DCSM and completion of HRSC provided a tool for enhanced, data-driven, decisions to support a change in remediation closure strategies. Currently, an approved pilot study has been obtained to shut-down the remediation systems (ISCO, P&T) and conduct a hydraulic study under non-pumping conditions. A separate micro-biological bench scale treatability study was competed that yielded positive results for an emerging innovative technology. As a result, a field pilot study has commenced with results expected in nine-twelve months. With the results of the hydraulic study, field pilot studies and an updated risk assessment leading site monitoring optimization cost lifecycle savings upwards of $15MM towards an alternatively evolved best available technology remediation closure strategy.

Evolving Lifecycles with High Resolution Site Characterization (HRSC) and 3-Dimensional Conceptual Site Models in Complex Geology - Josh Orris FINAL.pdf from Joshua Orris

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0 I7_#527_Poster_Orris.pdf /slideshow/i7527posterorrispdf/251847841 i7527posterorris-220524183014-8067b062
Traditional site investigation data collection methodologies have historically provided inadequate data density, data quality and data interpolation to overcome site heterogeneity. This deficiency in data often leads to repeated and/or incomplete investigations during initial stages of a site’s lifecycle and can result in the development of incomplete or an incorrect Conceptual Site Model (CSM). Incomplete CSMs often lead to flawed environmental system interpolations of geologic/hydrogeologic and microbiological-biochemistry systems, leading to unsuccessful remedial strategies, yielding to a greater potential to extend lifecycles and costs. The incorporation of High Resolution Site Characterization technology-based solutions, geophysical data in bedrock as well as MiHPT data in overburden and incorporation of historical groundwater analytical data into a comprehensive 3D CSM provided a tool for enhanced process-based better informed decisions that led to the design of more targeted investigations, focused pilot studies, pneumatic injection delivery and more precise full-scale remediation implementations, proving a “Best-In-Class” solution that reduced project lifecycle and costs upwards of $3.1MM. ]]>
Traditional site investigation data collection methodologies have historically provided inadequate data density, data quality and data interpolation to overcome site heterogeneity. This deficiency in data often leads to repeated and/or incomplete investigations during initial stages of a site’s lifecycle and can result in the development of incomplete or an incorrect Conceptual Site Model (CSM). Incomplete CSMs often lead to flawed environmental system interpolations of geologic/hydrogeologic and microbiological-biochemistry systems, leading to unsuccessful remedial strategies, yielding to a greater potential to extend lifecycles and costs. The incorporation of High Resolution Site Characterization technology-based solutions, geophysical data in bedrock as well as MiHPT data in overburden and incorporation of historical groundwater analytical data into a comprehensive 3D CSM provided a tool for enhanced process-based better informed decisions that led to the design of more targeted investigations, focused pilot studies, pneumatic injection delivery and more precise full-scale remediation implementations, proving a “Best-In-Class” solution that reduced project lifecycle and costs upwards of $3.1MM. ]]> Tue, 24 May 2022 18:30:14 GMT /slideshow/i7527posterorrispdf/251847841 JoshuaOrris@slideshare.net(JoshuaOrris) I7_#527_Poster_Orris.pdf JoshuaOrris Traditional site investigation data collection methodologies have historically provided inadequate data density, data quality and data interpolation to overcome site heterogeneity. This deficiency in data often leads to repeated and/or incomplete investigations during initial stages of a site’s lifecycle and can result in the development of incomplete or an incorrect Conceptual Site Model (CSM). Incomplete CSMs often lead to flawed environmental system interpolations of geologic/hydrogeologic and microbiological-biochemistry systems, leading to unsuccessful remedial strategies, yielding to a greater potential to extend lifecycles and costs. The incorporation of High Resolution Site Characterization technology-based solutions, geophysical data in bedrock as well as MiHPT data in overburden and incorporation of historical groundwater analytical data into a comprehensive 3D CSM provided a tool for enhanced process-based better informed decisions that led to the design of more targeted investigations, focused pilot studies, pneumatic injection delivery and more precise full-scale remediation implementations, proving a “Best-In-Class” solution that reduced project lifecycle and costs upwards of $3.1MM. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/i7527posterorris-220524183014-8067b062-thumbnail.jpg?width=120&height=120&fit=bounds" /> Traditional site investigation data collection methodologies have historically provided inadequate data density, data quality and data interpolation to overcome site heterogeneity. This deficiency in data often leads to repeated and/or incomplete investigations during initial stages of a site’s lifecycle and can result in the development of incomplete or an incorrect Conceptual Site Model (CSM). Incomplete CSMs often lead to flawed environmental system interpolations of geologic/hydrogeologic and microbiological-biochemistry systems, leading to unsuccessful remedial strategies, yielding to a greater potential to extend lifecycles and costs. The incorporation of High Resolution Site Characterization technology-based solutions, geophysical data in bedrock as well as MiHPT data in overburden and incorporation of historical groundwater analytical data into a comprehensive 3D CSM provided a tool for enhanced process-based better informed decisions that led to the design of more targeted investigations, focused pilot studies, pneumatic injection delivery and more precise full-scale remediation implementations, proving a “Best-In-Class” solution that reduced project lifecycle and costs upwards of $3.1MM.

I7_#527_Poster_Orris.pdf from Joshua Orris

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0 G2_#538_Poster_Orris.pdf.pdf /JoshuaOrris/g2538posterorrispdfpdf g2538posterorris-220524172558-069dda48
Liability Risk Management Technology Solutions for Enhancing Stakeholder Engagement & Acquisition Negotiations ]]>
Liability Risk Management Technology Solutions for Enhancing Stakeholder Engagement & Acquisition Negotiations ]]> Tue, 24 May 2022 17:25:58 GMT /JoshuaOrris/g2538posterorrispdfpdf JoshuaOrris@slideshare.net(JoshuaOrris) G2_#538_Poster_Orris.pdf.pdf JoshuaOrris Liability Risk Management Technology Solutions for Enhancing Stakeholder Engagement & Acquisition Negotiations <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/g2538posterorris-220524172558-069dda48-thumbnail.jpg?width=120&height=120&fit=bounds" /> Liability Risk Management Technology Solutions for Enhancing Stakeholder Engagement & Acquisition Negotiations

G2_#538_Poster_Orris.pdf.pdf from Joshua Orris

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0 G2_#534_Poster_Orris.pdf.pdf /slideshow/g2534posterorrispdfpdf/251847560 g2534posterorris-220524171023-b4095079
Cost-Effectively managing global environmental liabilities can be challenging given the regulatory variability and stakeholders. Being able to facilitate collaborative stakeholder discussions that meet both business strategies and regulatory demands often are unattainable, unless a common medium is shared. By leveraging technology with the development of an accurate Conceptual Site Model (CSM) that uses data stored in a relational database and integrated into a 3-dimensional (3D) data visualization and volumetric analysis is a Best Management Practice (BMP) that supports adaptive environmental liability management, consistently enhances stakeholder engagement for streamlining cost-effective lifecycle reductions and site closures. ]]>
Cost-Effectively managing global environmental liabilities can be challenging given the regulatory variability and stakeholders. Being able to facilitate collaborative stakeholder discussions that meet both business strategies and regulatory demands often are unattainable, unless a common medium is shared. By leveraging technology with the development of an accurate Conceptual Site Model (CSM) that uses data stored in a relational database and integrated into a 3-dimensional (3D) data visualization and volumetric analysis is a Best Management Practice (BMP) that supports adaptive environmental liability management, consistently enhances stakeholder engagement for streamlining cost-effective lifecycle reductions and site closures. ]]> Tue, 24 May 2022 17:10:23 GMT /slideshow/g2534posterorrispdfpdf/251847560 JoshuaOrris@slideshare.net(JoshuaOrris) G2_#534_Poster_Orris.pdf.pdf JoshuaOrris Cost-Effectively managing global environmental liabilities can be challenging given the regulatory variability and stakeholders. Being able to facilitate collaborative stakeholder discussions that meet both business strategies and regulatory demands often are unattainable, unless a common medium is shared. By leveraging technology with the development of an accurate Conceptual Site Model (CSM) that uses data stored in a relational database and integrated into a 3-dimensional (3D) data visualization and volumetric analysis is a Best Management Practice (BMP) that supports adaptive environmental liability management, consistently enhances stakeholder engagement for streamlining cost-effective lifecycle reductions and site closures. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/g2534posterorris-220524171023-b4095079-thumbnail.jpg?width=120&height=120&fit=bounds" /> Cost-Effectively managing global environmental liabilities can be challenging given the regulatory variability and stakeholders. Being able to facilitate collaborative stakeholder discussions that meet both business strategies and regulatory demands often are unattainable, unless a common medium is shared. By leveraging technology with the development of an accurate Conceptual Site Model (CSM) that uses data stored in a relational database and integrated into a 3-dimensional (3D) data visualization and volumetric analysis is a Best Management Practice (BMP) that supports adaptive environmental liability management, consistently enhances stakeholder engagement for streamlining cost-effective lifecycle reductions and site closures.

G2_#534_Poster_Orris.pdf.pdf from Joshua Orris

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0 Technology Innovation for Reducing Environmental Liability & Business Risk /slideshow/technology-innovation-for-reducing-environmental-liability-business-risk/141176721 2019battellehrscdatavizcsmorris-190418125757
Investing in innovation drives value-propositions to new approaches to liability risk management that ultimately promotes value-propositions. Leveraging technology for enhanced data analytics to enhance and validate conceptual site models; facilitates stakeholder engagement and streamlines site closure strategies, leading to better business decisions. ]]>
Investing in innovation drives value-propositions to new approaches to liability risk management that ultimately promotes value-propositions. Leveraging technology for enhanced data analytics to enhance and validate conceptual site models; facilitates stakeholder engagement and streamlines site closure strategies, leading to better business decisions. ]]> Thu, 18 Apr 2019 12:57:57 GMT /slideshow/technology-innovation-for-reducing-environmental-liability-business-risk/141176721 JoshuaOrris@slideshare.net(JoshuaOrris) Technology Innovation for Reducing Environmental Liability & Business Risk JoshuaOrris Investing in innovation drives value-propositions to new approaches to liability risk management that ultimately promotes value-propositions. Leveraging technology for enhanced data analytics to enhance and validate conceptual site models; facilitates stakeholder engagement and streamlines site closure strategies, leading to better business decisions. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2019battellehrscdatavizcsmorris-190418125757-thumbnail.jpg?width=120&height=120&fit=bounds" /> Investing in innovation drives value-propositions to new approaches to liability risk management that ultimately promotes value-propositions. Leveraging technology for enhanced data analytics to enhance and validate conceptual site models; facilitates stakeholder engagement and streamlines site closure strategies, leading to better business decisions.

Technology Innovation for Reducing Environmental Liability & Business Risk from Joshua Orris

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0 Using Data Management & 3D Data Visualization for More Complete CSMs and to Streamline Site Closures /slideshow/using-data-management-3d-data-visualization-for-more-complete-csms-and-to-streamline-site-closures/99393055 2018anteagroup-180529162656
Creating business value through leveraging technology with data visualization; leads to enhanced management processes, stakeholder engagement and system designs for future investment validation. Effective business risk management with enhanced conceptual site models for lifecycle reduction; results in cost savings and more informed business decision making.]]>
Creating business value through leveraging technology with data visualization; leads to enhanced management processes, stakeholder engagement and system designs for future investment validation. Effective business risk management with enhanced conceptual site models for lifecycle reduction; results in cost savings and more informed business decision making.]]> Tue, 29 May 2018 16:26:56 GMT /slideshow/using-data-management-3d-data-visualization-for-more-complete-csms-and-to-streamline-site-closures/99393055 JoshuaOrris@slideshare.net(JoshuaOrris) Using Data Management & 3D Data Visualization for More Complete CSMs and to Streamline Site Closures JoshuaOrris Creating business value through leveraging technology with data visualization; leads to enhanced management processes, stakeholder engagement and system designs for future investment validation. Effective business risk management with enhanced conceptual site models for lifecycle reduction; results in cost savings and more informed business decision making. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2018anteagroup-180529162656-thumbnail.jpg?width=120&height=120&fit=bounds" /> Creating business value through leveraging technology with data visualization; leads to enhanced management processes, stakeholder engagement and system designs for future investment validation. Effective business risk management with enhanced conceptual site models for lifecycle reduction; results in cost savings and more informed business decision making.

Using Data Management & 3D Data Visualization for More Complete CSMs and to Streamline Site Closures from Joshua Orris

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0 High Resolution Site Characterization and 3D Data Visualization for a Fractured Rock Site; A Path to Streamlined Closure /slideshow/high-resolution-site-characterization-and-3d-data-visualization-for-a-fractured-rock-site-path-to-streamlined-closure/94095378 2018battelleconference-180417131129
Technology-based solution approach to more effectively manage environmental liabilities, reduce lifecycles, reduce costs and streamline closure strategies. Creating business-value proposition to positively impact the "bottom-line".]]>
Technology-based solution approach to more effectively manage environmental liabilities, reduce lifecycles, reduce costs and streamline closure strategies. Creating business-value proposition to positively impact the "bottom-line".]]> Tue, 17 Apr 2018 13:11:29 GMT /slideshow/high-resolution-site-characterization-and-3d-data-visualization-for-a-fractured-rock-site-path-to-streamlined-closure/94095378 JoshuaOrris@slideshare.net(JoshuaOrris) High Resolution Site Characterization and 3D Data Visualization for a Fractured Rock Site; A Path to Streamlined Closure JoshuaOrris Technology-based solution approach to more effectively manage environmental liabilities, reduce lifecycles, reduce costs and streamline closure strategies. Creating business-value proposition to positively impact the "bottom-line". <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2018battelleconference-180417131129-thumbnail.jpg?width=120&height=120&fit=bounds" /> Technology-based solution approach to more effectively manage environmental liabilities, reduce lifecycles, reduce costs and streamline closure strategies. Creating business-value proposition to positively impact the "bottom-line".

High Resolution Site Characterization and 3D Data Visualization for a Fractured Rock Site; A Path to Streamlined Closure from Joshua Orris

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