Jeffrey M. Bielicki
TitleCited byYear
A Scalable Infrastructure Model for Carbon Capture and Storage: SimCCS
RS Middleton, JM Bielicki
Energy Policy 37 (3), 1052-1060, 2009
The Production of Zn from ZnO in a High Temperature Solar Decomposition Process – The Scientific Framework for the Process
R Palumbo, J Lede, O Boutin, E Ricart, A Steinfeld, S Moller, A Weidenkaff, ...
Chemical Engineering Science 53 (14), 2503-2517, 1998
Environmental indicators of biofuel sustainability: what about context?
RA Efroymson, VH Dale, KL Kline, AC McBride, JM Bielicki, RL Smith, ...
Environmental management 51 (2), 291-306, 2013
Comparing Carbon Capture and Storage (CCS) with Concentrating Solar Power (CSP): Potentials, Costs, Risks, and Barriers
J Lilliestam, JM Bielicki, AG Patt
Energy Policy 47, 447-455, 2012
A Comprehensive Carbon Capture and Storage Infrastructure Model
RS Middleton, JM Bielicki
Energy Procedia 1 (1), 1611-1616, 2009
Proceedings of the 18th Particle Accelerator Conference, New York, 1999
C Johnstone, W Wan, A Garren
IEEE, 1999
A comparison of electric power output of CO2 Plume Geothermal (CPG) and brine geothermal systems for varying reservoir conditions
BM Adams, TH Kuehn, JM Bielicki, JB Randolph, MO Saar
Applied Energy 140, 365-377, 2015
On the Importance of the Thermosiphon Effect in CPG (CO2 Plume Geothermal) Power Systems
BM Adams, TH Kuehn, JM Bielicki, JB Randolph, MO Saar
Energy 69, 409-418, 2014
Generating Candidate Networks for Optimization: The CO2 Capture and Storage Optimization Problem
RS Middleton, MJ Kuby, JM Bielicki
Computers, Environment and Urban Systems 36 (1), 18-29, 2012
Optimal Spatial Deployment of CO2 Capture and Storage given a Price on Carbon
MJ Kuby, JM Bielicki, RS Middleton
International Regional Science Review 34 (3), 285-305, 2011
CO2 Deserts: Implications of Existing CO2 Supply Limitations for Carbon Management
RS Middleton, AF Clarens, X Liu, JM Bielicki, JS Levine
Environmental science & technology 48 (19), 11713-11720, 2014
Analysis of cost savings from networking pipelines in CCS infrastructure systems
MJ Kuby, RS Middleton, JM Bielicki
Energy Procedia 4, 2808-2815, 2011
Multifluid geo-energy systems: Using geologic CO2 storage for geothermal energy production and grid-scale energy storage in sedimentary basins
TA Buscheck, JM Bielicki, TA Edmunds, Y Hao, Y Sun, JB Randolph, ...
Geosphere 12 (3), 678-696, 2016
Causes and financial consequences of geologic CO2 storage reservoir leakage and interference with other subsurface resources
JM Bielicki, MF Pollak, JP Fitts, CA Peters, EJ Wilson
International Journal of Greenhouse Gas Control 20, 272-284, 2014
Comparing scales of environmental effects from gasoline and ethanol production
ES Parish, KL Kline, VH Dale, RA Efroymson, AC McBride, TL Johnson, ...
Environmental Management 51 (2), 307-338, 2013
Heterogeneity-assisted carbon dioxide storage in marine sediments
Z Dai, Y Zhang, J Bielicki, MA Amooie, M Zhang, C Yang, Y Zou, ...
Applied Energy 225, 876-883, 2018
Jumpstarting commercial‐scale CO2 capture and storage with ethylene production and enhanced oil recovery in the US Gulf
RS Middleton, JS Levine, JM Bielicki, HS Viswanathan, JW Carey, ...
Greenhouse Gases: Science and Technology 5 (3), 241-253, 2015
Learning about carbon capture and storage: Changing stakeholder perceptions with expert information
JC Stephens, J Bielicki, GM Rand
Energy Procedia 1 (1), 4655-4663, 2009
Managing geologic CO 2 storage with pre-injection brine production: a strategy evaluated with a model of CO 2 injection at Sn°hvit
TA Buscheck, JA White, SA Carroll, JM Bielicki, RD Aines
Energy & Environmental Science 9 (4), 1504-1512, 2016
An examination of geologic carbon sequestration policies in the context of leakage potential
JM Bielicki, CA Peters, JP Fitts, EJ Wilson
International Journal of Greenhouse Gas Control 37, 61-75, 2015
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