期刊论文详细信息
Energies
Residential Natural Gas Demand Response Potential during Extreme Cold Events in Electricity-Gas Coupled Energy Systems
Eric Wilson1  Andrew Speake1  Craig Christensen1  Emily Chen2  Paul Donohoo-Vallett2 
[1] National Renewable Energy Laboratory, Golden, CO 80401, USA;U.S. Department of Energy, Washington, DC 20585, USA;
关键词: demand response;    building energy efficiency;    energy resilience;    building stock modeling;    demand side management;   
DOI  :  10.3390/en13195192
来源: DOAJ
【 摘 要 】

In regions where natural gas is used for both power generation and heating buildings, extreme cold weather events can place the electrical system under enormous stress and challenge the ability to meet residential heating and electric demands. Residential demand response has long been used in the power sector to curtail summer electric load, but these types of programs in general have not seen adoption in the natural gas sector during winter months. Natural gas demand response (NG-DR) has garnered interest given recent extreme cold weather events in the United States; however, the magnitude of savings and potential impacts—to occupants and energy markets—are not well understood. We present a case-study analysis of the technical potential for residential natural gas demand response in the northeast United States that utilizes diverse whole-building energy simulations and high-performance computing. Our results show that NG-DR applied to residential heating systems during extreme cold-weather conditions could reduce natural gas demand by 1–29% based on conservative and aggressive strategies, respectively. This indicates a potential to improve the resilience of gas and electric systems during stressful events, which we examine by estimating the impact on energy costs and electricity generation from natural gas. We also explore relationships between hourly indoor temperatures, demand response, and building envelope efficiency.

【 授权许可】

Unknown   

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