Open Access. Powered by Scholars. Published by Universities.®
- Keyword
-
- Alberta (1)
- BHT (1)
- Binary power (1)
- Brine Chemistry (1)
- CHP (1)
-
- Carbonates (1)
- Coproduction (1)
- DDU (1)
- Deep direct use (1)
- Fractal Dimension (1)
- Geothermal (1)
- Greenview (1)
- ORC (1)
- Oil field economics (1)
- Pore Size Distributions (1)
- Pressure-Controlled Mercury Intrusion (1)
- Rate-Controlled Mercury Intrusion (1)
- Sedimentary basin (1)
- Sedimentary basin geothermal (1)
- Tight Oil Reservoir (1)
- Western Canada Sedimentary Basin (WCSB) (1)
Articles 1 - 4 of 4
Full-Text Articles in Geological Engineering
Using Geothermal Energy To Reduce Oil Production Costs, Will Gosnold, Mark Ballesteros, Dongmei Wang, Josh Crowell
Using Geothermal Energy To Reduce Oil Production Costs, Will Gosnold, Mark Ballesteros, Dongmei Wang, Josh Crowell
Geology and Geological Engineering Faculty Publications
The economic impact of the Covid-19 pandemic on the oil industry has been devastating. The decline in demand and price collapse have been particularly disruptive for shale oil extraction which is inherently more expensive than conventional operations. Survival and continuing operations will depend partly on reducing operating costs, and a ubiquitous and substantial cost in oil production is electrical power used primarily for pumping the wells. The Bakken in North Dakota play is particularly vulnerable because there is not an adequate electrical grid in the region. Many Bakken fields rely on generators burning propane, gasoline or diesel fuel at costs …
Deep Direct Use Geothermal Energy In The North Dakota Clean Energy Transition Strategy, Al Thibeault, Moones Alamooti, Nnaemeka Ngobidi, Will Gosnold
Deep Direct Use Geothermal Energy In The North Dakota Clean Energy Transition Strategy, Al Thibeault, Moones Alamooti, Nnaemeka Ngobidi, Will Gosnold
Geology and Geological Engineering Faculty Publications
The geothermal heat in the Williston Basin is an energy giant that can provide sustainable, renewable, and ecologically sound heat and power for the state of North Dakota (ND). We have known of this resource for decades, but development has been delayed for reasons which can be summed as economic competition from existing fossil fuel energy sources. With the “seismic” shock of the Covid-19 pandemic reverberating through the state’s carbon-centric economy, the timing is ideal for acting quickly to develop this energy resource.
Coincidentally, the State Energy Research Center (SERC) within the Energy & Environmental Research Center (EERC), has recently …
A Relook At Canada’S Western Canada Sedimentary Basin For Power Generation And Direct-Use Energy Production, Catherine Hickson, Katie Huang, Darrell Cotterill, Will Gosnold, Dick Benoit
A Relook At Canada’S Western Canada Sedimentary Basin For Power Generation And Direct-Use Energy Production, Catherine Hickson, Katie Huang, Darrell Cotterill, Will Gosnold, Dick Benoit
Geology and Geological Engineering Faculty Publications
The Alberta No. 1 Project, under the terms of Canada’s Federal government’s Emerging Renewable Power Program (ERPP), must produce 5MWe net. The goal of this study was to identify areas where three essential constraining conditions overlap; (1) the temperature gradient is sufficiently high that 120°C brines at depths of 4,500m or less are potentially available, (2) there are formations at the depths targeted with known high fluid flows, and (3) there is adequate existing infrastructure that supports low-cost power grid connection as well as a direct use application. A fluid temperature of at least 120oC is needed to …
Overall Psd And Fractal Characteristics Of Tight Oil Reservoirs: A Case Study Of Lucaogou Formation In Junggar Basin, China, Xixin Wang, Jiagen Hou, Yuming Liu, Peiqiang Zhao, Ke Ma, Dongmei Wang, Xiaoxu Ren, Lin Yan
Overall Psd And Fractal Characteristics Of Tight Oil Reservoirs: A Case Study Of Lucaogou Formation In Junggar Basin, China, Xixin Wang, Jiagen Hou, Yuming Liu, Peiqiang Zhao, Ke Ma, Dongmei Wang, Xiaoxu Ren, Lin Yan
Geology and Geological Engineering Faculty Publications
Lucaogou tight oil reservoir, located in the Junggar Basin, Northwest of China, is one of the typical tight oil reservoirs. Complex lithology leads to a wide pore size distribution (PSD), ranging from several nanometers to hundreds of micrometers. To better understand PSD and fractal features of Lucaogou tight oil reservoir, the experiment methods including scanning electron microscope (SEM), rate-controlled mercury injection (RMI) and pressure-controlled mercury injection (PMI) were performed on the six samples with different lithology. The results indicate that four types of pores exist in Lucaogou tight oil reservoir, including dissolution pores, clay dominated pores, microfractures and inter-granular pores. …