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Keywords: ORC
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Journal Articles
Publisher: ASME
Article Type: Research Papers
J. Energy Resour. Technol. December 2024, 146(12): 122103.
Paper No: JERT-24-1166
Published Online: September 11, 2024
Journal Articles
Study on the influence mechanism of spoiler on flow and combustion process in rotary engine cylinder
Accepted Manuscript
Publisher: ASME
Article Type: Research Papers
J. Energy Resour. Technol.
Paper No: JERT-24-1382
Published Online: September 11, 2024
Image
in Fuel Consumption Prediction in Dual-Fuel Low-Speed Marine Engines With Low-Pressure Gas Injection
> Journal of Energy Resources Technology
Published Online: September 11, 2024
Fig. 1 Specific fuel consumption normalized against MCR and percentage regression errors More about this image found in Specific fuel consumption normalized against MCR and percentage regression ...
Image
in Fuel Consumption Prediction in Dual-Fuel Low-Speed Marine Engines With Low-Pressure Gas Injection
> Journal of Energy Resources Technology
Published Online: September 11, 2024
Fig. 2 Specific fuel consumptions normalized against CMCR and respective percentage regression errors for FPP driving More about this image found in Specific fuel consumptions normalized against CMCR and respective percentag...
Image
in Fuel Consumption Prediction in Dual-Fuel Low-Speed Marine Engines With Low-Pressure Gas Injection
> Journal of Energy Resources Technology
Published Online: September 11, 2024
Fig. 3 Specific fuel consumptions normalized against CMCR and respective percentage regression errors for CPP driving More about this image found in Specific fuel consumptions normalized against CMCR and respective percentag...
Image
in Fuel Consumption Prediction in Dual-Fuel Low-Speed Marine Engines With Low-Pressure Gas Injection
> Journal of Energy Resources Technology
Published Online: September 11, 2024
Fig. 4 Performance of the developed approach for the engine X62DF driving a fixed-pitch propeller: ( a ) qualitative for CMCR placed near the RC and ( b ) quantitative for CMCR in five different positions More about this image found in Performance of the developed approach for the engine X62DF driving a fixed-...
Image
in Fuel Consumption Prediction in Dual-Fuel Low-Speed Marine Engines With Low-Pressure Gas Injection
> Journal of Energy Resources Technology
Published Online: September 11, 2024
Fig. 5 Performance of the developed approach for the engine X62DF driving a controllable pitch propeller: ( a ) qualitative for CMCR placed near the RC and ( b ) quantitative for CMCR in five different positions More about this image found in Performance of the developed approach for the engine X62DF driving a contro...
Image
in Fuel Consumption Prediction in Dual-Fuel Low-Speed Marine Engines With Low-Pressure Gas Injection
> Journal of Energy Resources Technology
Published Online: September 11, 2024
Fig. 6 Rating fields of all engines More about this image found in Rating fields of all engines
Journal Articles
Accepted Manuscript
Lei Tao, Mengjun Wu, Na Zhang, Wenyang Shi, Lili Cao, Yong Song, Jiajia Bai, Zhengxiao Xu, Qingjie Zhu
Publisher: ASME
Article Type: Research Papers
J. Energy Resour. Technol.
Paper No: JERT-24-1406
Published Online: September 9, 2024
Journal Articles
Publisher: ASME
Article Type: Research Papers
J. Energy Resour. Technol. November 2024, 146(11): 113501.
Paper No: JERT-23-1741
Published Online: September 2, 2024
Journal Articles
Publisher: ASME
Article Type: Research Papers
J. Energy Resour. Technol. December 2024, 146(12): 121201.
Paper No: JERT-24-1282
Published Online: September 2, 2024
Image
in A Semi-Analytical Rate-Transient Analysis Model for Fractured Horizontal Well in Tight Reservoirs Under Multiphase Flow Conditions
> Journal of Energy Resources Technology
Published Online: September 2, 2024
Fig. 1 Top view of butterfly model (modified from Ref. [ 9 ]) depicts the reservoir with a uniform thickness throughout: ( a ) represents the configuration of a horizontal well within the complex fracture network, ( b ) represents the drainage area of a single fragment, and ( c ) represents the re... More about this image found in Top view of butterfly model (modified from Ref. [ 9 ]) depicts the reservoi...
Image
in A Semi-Analytical Rate-Transient Analysis Model for Fractured Horizontal Well in Tight Reservoirs Under Multiphase Flow Conditions
> Journal of Energy Resources Technology
Published Online: September 2, 2024
Fig. 2 Model solution flowchart More about this image found in Model solution flowchart
Image
in A Semi-Analytical Rate-Transient Analysis Model for Fractured Horizontal Well in Tight Reservoirs Under Multiphase Flow Conditions
> Journal of Energy Resources Technology
Published Online: September 2, 2024
Fig. 3 Planar fracture swarm model equivalent to complex fracture network in tight reservoirs. The flow dimension parameters are ( a ) 0.35 and ( b ) 0.4, respectively. The horizontal line represents the horizontal well, and the perpendicular lines are planer fractures. More about this image found in Planar fracture swarm model equivalent to complex fracture network in tight...
Image
in A Semi-Analytical Rate-Transient Analysis Model for Fractured Horizontal Well in Tight Reservoirs Under Multiphase Flow Conditions
> Journal of Energy Resources Technology
Published Online: September 2, 2024
Fig. 19 ( a ) The schematic diagram of characteristic flow volume and ( b ) comparison of the theoretical calculation results and superposition results (modified from Ref. [ 47 ]) More about this image found in ( a ) The schematic diagram of characteristic flow volume and ( b ) compari...
Image
in A Semi-Analytical Rate-Transient Analysis Model for Fractured Horizontal Well in Tight Reservoirs Under Multiphase Flow Conditions
> Journal of Energy Resources Technology
Published Online: September 2, 2024
Fig. 4 The two-phase ( a ) oil–water and ( b ) gas–liquid relative permeability curves for a water-wet rock More about this image found in The two-phase ( a ) oil–water and ( b ) gas–liquid relative permeability cu...
Image
in A Semi-Analytical Rate-Transient Analysis Model for Fractured Horizontal Well in Tight Reservoirs Under Multiphase Flow Conditions
> Journal of Energy Resources Technology
Published Online: September 2, 2024
Fig. 5 PVT data used in simulation models: ( a ) viscosity for oil and gas, gas–oil ratio and ( b ) volume factor for oil and gas More about this image found in PVT data used in simulation models: ( a ) viscosity for oil and gas, gas–oi...
Image
in A Semi-Analytical Rate-Transient Analysis Model for Fractured Horizontal Well in Tight Reservoirs Under Multiphase Flow Conditions
> Journal of Energy Resources Technology
Published Online: September 2, 2024
Fig. 6 Relationships of ( a ) pressure and saturation for ( b ) oil, ( c ) gas, and ( d ) water with respect to modified Boltzmann variable More about this image found in Relationships of ( a ) pressure and saturation for ( b ) oil, ( c ) gas, an...
Image
in A Semi-Analytical Rate-Transient Analysis Model for Fractured Horizontal Well in Tight Reservoirs Under Multiphase Flow Conditions
> Journal of Energy Resources Technology
Published Online: September 2, 2024
Fig. 7 Relationships for ( a ) oil saturation and ( b ) gas saturation with pressure More about this image found in Relationships for ( a ) oil saturation and ( b ) gas saturation with pressu...
Image
in A Semi-Analytical Rate-Transient Analysis Model for Fractured Horizontal Well in Tight Reservoirs Under Multiphase Flow Conditions
> Journal of Energy Resources Technology
Published Online: September 2, 2024
Fig. 8 Comparisons between the numerical solution and the semi-analytical model: ( a ) and ( b ) the validation of oil, gas, and water rates and cumulative production for case with flow dimension parameter of 0.35 and ( c ) and ( d ) the validation of oil, gas, and water rates and cumulative produ... More about this image found in Comparisons between the numerical solution and the semi-analytical model: (...
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