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Welcome to the Energy Analysis Search Publications page. Hundreds of Energy Analysis related publications can be found in this repository. To get started, begin filtering the results below by using the quick filters located on the Search Publications Landing Page or search within filtered results by using the search box below. 


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Analysis Focus: Environment (Non-GHG)

Life Cycle Analysis of Natural Gas Extraction and Power Generation

Date: 8/30/2016
Contact: Timothy J. Skone, P.E.

This report is an update to the NETL 2014 life cycle analysis report of environmental profile for natural gas production and delivery in the United States. This report expands the scope of the environmental profile to include a broad range of impacts and updates the greenhouse gas (GHG) profile to reflect year 2012 production statistics and emission factors based on the current state of science as in 2015. The national methane emission rate is 1.6 percent and ranges between 1.2 and 2.2 percent. This national emission rate is a production weighted composite of 31 different combinations of extraction technologies and regions. The report also evaluates the life cycle environmental profile for producing electricity from natural gas. On 100- and 20-year time frames, the life cycle GHG emissions for baseload electricity from the existing fleet of natural gas fired power plants are 514 and 613 kg CO2e/MWh, respectively.


Life Cycle Analysis of Coal Exports from the Powder River Basin

Date: 6/15/2016
Contact: Timothy J. Skone, P.E.

This presentation was given at the 2016 Carbon Capture, Utilization, and Storage Conference in June, 2016, and provided the complete technical details behind and the full life cycle impacts of exporting coal from the Powder River Basin in the U.S. to electricity markets in Asia. Key takeaways are the relative large contribution of the transportation of the coal when traveling distance.


Life Cycle Greenhouse Gas Emissions: Natural Gas and Power Production

Date: 2/23/2016
Contact: Timothy J. Skone, P.E.

This presentation was given at the EPRI Winter Meeting, Natural Gas Interest Group in February, 2016 and provided the technical details behind and results from the life cycle greenhouse gas analysis of natural gas extraction across the United States and its use in power production relative to coal-fired power.


NETL Fischer-Tropsch Black Box Model Documentation

Date: 9/15/2015
Contact: Timothy J. Skone, P.E.

The purpose of the Fischer-Tropsch (F-T) Black Box Model is to allow for the screening of the impacts of F-T finished fuels production based on the input of a unique syngas composition. Utilizing the composition of the raw syngas, the model calculates the following outputs based on a facility sized to produce 50,000 bbl/day of liquid product: CO2 emissions, liquid product flows, required syngas input, and the net export electricity from the facility.NETL completed this model/study for the Connecticut Center for Advanced Technology (CCAT) to provide techno-economic and life cycle analysis modeling support for CBTL alternative jet fuel production, which forms key references to their report to the Defense Logistics Agency (their project sponsor/funder).


NETL Fischer-Tropsch Black Box Model

Date: 9/15/2015
Contact: Timothy J. Skone, P.E.

The purpose of the Fischer-Tropsch (F-T) Black Box Model is to allow for the screening of the impacts of F-T finished fuels production based on the input of a unique syngas composition. Utilizing the composition of the raw syngas, the model calculates the following outputs based on a facility sized to produce 50,000 bbl/day of liquid product: CO2 emissions, liquid product flows, required syngas input, and the net export electricity from the facility. NETL completed this model/study for the Connecticut Center for Advanced Technology (CCAT) to provide techno-economic and life cycle analysis modeling support for CBTL alternative jet fuel production, which forms key references to their report to the Defense Logistics Agency (their project sponsor/funder).


Comprehensive Analysis of Coal and Biomass Conversion to Jet Fuel: Oxygen Blown, Transport Reactor Integrated Gasifier (TRIG) and Fischer-Tropsch (F-T) Catalyst Configurations Modeled and Validated Scenarios

Date: 9/8/2015
Contact: Timothy J. Skone, P.E.

This study evaluates the technological/process, life cycle environmental, and economic perspective of 20 discreet F-T jet fuel production scenarios. The technological/process model provides a process level evaluation of the 10 alternate CBTL facility scenarios considered in this study. Aspen Plus simulation models for the CBTL facility scenarios were developed to determine the composition and flows of all of the major streams in the plants. These were used to develop conceptual level cost estimates for capital and operating costs for the major process units. NETL completed this study for the Connecticut Center for Advanced Technology (CCAT) to provide techno-economic and life cycle analysis modeling support for CBTL alternative jet fuel production, which forms key references to their report to the Defense Logistics Agency (their project sponsor/funder).


Comprehensive Analysis of Coal and Biomass Conversion to Jet Fuel: Oxygen Blown, Entrained-Flow Gasifier (EFG) and Fischer-Tropsch (F-T) Catalyst Configurations Modeled and Validated Scenarios

Date: 9/8/2015
Contact: Timothy J. Skone, P.E.

This study evaluates the technological/process, life cycle environmental, and economic perspective of 10 discreet F-T jet fuel production scenarios. The technological/process model provides a process level evaluation of the 10 alternate CBTL facility scenarios considered in this study. Aspen Plus simulation models for the CBTL facility scenarios were developed to determine the composition and flows of all of the major streams in the plants. These were used to develop conceptual level cost estimates for capital and operating costs for the major process units. NETL completed this study for the Connecticut Center for Advanced Technology (CCAT) to provide techno-economic and life cycle analysis modeling support for CBTL alternative jet fuel production, which forms key references to their report to the Defense Logistics Agency (their project sponsor/funder).


CBTL Jet Fuel Model

Date: 2/27/2015
Contact: Timothy J. Skone, P.E.

An Excel-based model was developed to allow in-depth user access to the technological process, economic, and life cycle environmental results that were completed in support of this study, for each of the different CBTL jet fuel production scenarios (total of 49 unique result sets when counting both TRIG and EFG scenarios). The CBTL Jet Fuel Model incorporates a stochastic analysis of modeled results, drawing on input statistical distributions for the 17 environmental and 40 economic parameters. A stochastic analysis was performed by using the Palisade Corporation’s @RISK Excel add-in. NETL completed a CRADA with Connecticut Center for Advanced Technology (CCAT) to provide techno-economic and life cycle analysis modeling support for CBTL alternative jet fuel production, which forms key references to their report to the Defense Logistics Agency (their project sponsor/funder).


Thermal Plant Emissions Due to Intermittent Renewable Power Integration

Date: 5/1/2011
Contact: John Brewer

Answering the question of whether operating one or more natural-gas turbines to firm variable wind or solar power would result in increased Nitrous oxide (NOx) and Carbon Dioxide (CO2) emissions compared to full-power steady-state operation of natural-gas turbines, the analysis demonstrates that CO2 emissions reductions are likely to be 75-80% of those presently assumed by policy makers (one-for-one reduction). NOx reduction depends strongly on the type of NOx control and how it is dispatched. For the best system examined, using 20% renewable penetration, the NOx reductions are 30-50% of those expected; in the worst, emissions increased by 2-4 times the expected reductions.