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Journal Articles
Article Type: Research Papers
J. Eng. Sustain. Bldgs. Cities. February 2023, 4(1): 011001.
Paper No: JESBC-22-1015
Published Online: January 24, 2023
Journal Articles
Article Type: Research Papers
J. Eng. Sustain. Bldgs. Cities. February 2023, 4(1): 011101.
Paper No: JESBC-22-1022
Published Online: January 24, 2023
Image
in Optimization of Energy Storage Systems and Demand Side Management to Maximize Water Utility Savings: A Hawaii Case Study
> ASME Journal of Engineering for Sustainable Buildings and Cities
Published Online: January 24, 2023
Fig. 1 NELHA layout More
Image
in Optimization of Energy Storage Systems and Demand Side Management to Maximize Water Utility Savings: A Hawaii Case Study
> ASME Journal of Engineering for Sustainable Buildings and Cities
Published Online: January 24, 2023
Fig. 2 Pumps linear efficiency curve versus quadratic efficiency curves More
Image
in Optimization of Energy Storage Systems and Demand Side Management to Maximize Water Utility Savings: A Hawaii Case Study
> ASME Journal of Engineering for Sustainable Buildings and Cities
Published Online: January 24, 2023
Fig. 3 Optimal dispatch with only ESS at RC for the day Sept. 11, 2019 More
Image
in Optimization of Energy Storage Systems and Demand Side Management to Maximize Water Utility Savings: A Hawaii Case Study
> ASME Journal of Engineering for Sustainable Buildings and Cities
Published Online: January 24, 2023
Fig. 4 Optimal dispatch with only DSM for the day Sept. 11, 2019 More
Image
in Optimization of Energy Storage Systems and Demand Side Management to Maximize Water Utility Savings: A Hawaii Case Study
> ASME Journal of Engineering for Sustainable Buildings and Cities
Published Online: January 24, 2023
Fig. 5 Optimal dispatch with both ( a ) ESS and ( b ) DSM for SSW at RC for the day Sept. 11, 2019 More
Image
in Optimization of Energy Storage Systems and Demand Side Management to Maximize Water Utility Savings: A Hawaii Case Study
> ASME Journal of Engineering for Sustainable Buildings and Cities
Published Online: January 24, 2023
Fig. 6 ( a ) Savings and ( b ) cost for different energy saving methodologies ten-year savings More
Image
in Optimization of Energy Storage Systems and Demand Side Management to Maximize Water Utility Savings: A Hawaii Case Study
> ASME Journal of Engineering for Sustainable Buildings and Cities
Published Online: January 24, 2023
Fig. 7 ( a ) Optimal dispatch of SSW for pump house at RC and ( b ) optimal dispatch of SSW for individual pump at RC, for the day Sept. 11, 2019 More
Image
in Optimization of Energy Storage Systems and Demand Side Management to Maximize Water Utility Savings: A Hawaii Case Study
> ASME Journal of Engineering for Sustainable Buildings and Cities
Published Online: January 24, 2023
Fig. 8 ( a ) Optimal dispatch of SSW for pump house at RC using linear efficiency model and ( b ) optimal dispatch of SSW for pump house at RC using quadratic efficiency model, for the day Sept. 11, 2019 More
Image
in Optimization of Energy Storage Systems and Demand Side Management to Maximize Water Utility Savings: A Hawaii Case Study
> ASME Journal of Engineering for Sustainable Buildings and Cities
Published Online: January 24, 2023
Fig. 9 Savings from solar increment for period of ten years More
Image
in Impact of Sustainable Buildings in Arid Environment on the Indoor and Outdoor Air Quality: Workshop Report
> ASME Journal of Engineering for Sustainable Buildings and Cities
Published Online: January 24, 2023
Fig. 1 Workshop Participants More
Image
in Impact of Sustainable Buildings in Arid Environment on the Indoor and Outdoor Air Quality: Workshop Report
> ASME Journal of Engineering for Sustainable Buildings and Cities
Published Online: January 24, 2023
Fig. 2 Schematic diagram of dynamic processes and interactions affecting the urban built environment More
Journal Articles
Article Type: Research Papers
J. Eng. Sustain. Bldgs. Cities. November 2022, 3(4): 041003.
Paper No: JESBC-22-1018
Published Online: December 20, 2022
Image
in Assessment of Dynamic Photovoltaic Shading Systems on Energy Performance of Commercial Buildings
> ASME Journal of Engineering for Sustainable Buildings and Cities
Published Online: December 20, 2022
Fig. 1 Analysis approach of dynamic PV-integrated overhangs More
Image
in Assessment of Dynamic Photovoltaic Shading Systems on Energy Performance of Commercial Buildings
> ASME Journal of Engineering for Sustainable Buildings and Cities
Published Online: December 20, 2022
Fig. 2 Rendering for the medium office building energy model More
Image
in Assessment of Dynamic Photovoltaic Shading Systems on Energy Performance of Commercial Buildings
> ASME Journal of Engineering for Sustainable Buildings and Cities
Published Online: December 20, 2022
Fig. 3 Rotating overhangs with different tilt angle positions More
Image
in Assessment of Dynamic Photovoltaic Shading Systems on Energy Performance of Commercial Buildings
> ASME Journal of Engineering for Sustainable Buildings and Cities
Published Online: December 20, 2022
Fig. 4 Annual source energy end-use for the baseline office building More
Image
in Assessment of Dynamic Photovoltaic Shading Systems on Energy Performance of Commercial Buildings
> ASME Journal of Engineering for Sustainable Buildings and Cities
Published Online: December 20, 2022
Fig. 5 Monthly source energy end-use profile for the baseline office building More
Image
in Assessment of Dynamic Photovoltaic Shading Systems on Energy Performance of Commercial Buildings
> ASME Journal of Engineering for Sustainable Buildings and Cities
Published Online: December 20, 2022
Fig. 6 Impact of overhang tilt angle on monthly energy use of the baseline office building More