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W4294840052 startingPage "125353" @default.
W4294840052 abstract "Community energy systems as decentralized and collective renewable energy systems, where the energy is jointly generated and distributed among a community of households, are gaining momentum. The collective action of individual households as a core characteristic of such energy systems influences the energy availability, energy costs, and eventually, their energy security. This study investigates the influence of individual households' behavioural attributes on the energy security of such collective energy systems. An agent-based model was built based on the following energy security dimensions: availability, affordability, accessibility and acceptability, referred to as the 4A's concept. The research focused on thermal energy communities given the considerable share of thermal energy applications, such as heating, cooling, and hot tap water. The simulation results demonstrated that such communities could cost around 1250 €/year while reducing their CO2 emissions by 50% on average. Environmentally friendly behaviour leads to higher energy security performances. Such behaviours considerably influence the technical configurations while contributing positively to affordability and acceptability dimensions of collective energy security of thermal energy systems. Furthermore, the investment size of individual households was found to be the most influential parameter for energy security performances, while natural gas prices were identified as the least impactful parameter." @default.
W4294840052 created "2022-09-07" @default.
W4294840052 creator A5030759807 @default.
W4294840052 date "2022-12-01" @default.
W4294840052 modified "2023-10-01" @default.
W4294840052 title "Behavioural attributes towards collective energy security in thermal energy communities: Environmental-friendly behaviour matters" @default.
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W4294840052 cites W1987125304 @default.
W4294840052 cites W1989716017 @default.
W4294840052 cites W1997966965 @default.
W4294840052 cites W2013946069 @default.
W4294840052 cites W2018083543 @default.
W4294840052 cites W2018848555 @default.
W4294840052 cites W2019530328 @default.
W4294840052 cites W2020674644 @default.
W4294840052 cites W2030490025 @default.
W4294840052 cites W2031534228 @default.
W4294840052 cites W2032991077 @default.
W4294840052 cites W2033101852 @default.
W4294840052 cites W2064572508 @default.
W4294840052 cites W2068566455 @default.
W4294840052 cites W2073775438 @default.
W4294840052 cites W2077801381 @default.
W4294840052 cites W2087264797 @default.
W4294840052 cites W2088757989 @default.
W4294840052 cites W2092829256 @default.
W4294840052 cites W2095336772 @default.
W4294840052 cites W2095736533 @default.
W4294840052 cites W2097158796 @default.
W4294840052 cites W2099697766 @default.
W4294840052 cites W2103292163 @default.
W4294840052 cites W2112090702 @default.
W4294840052 cites W2122889203 @default.
W4294840052 cites W2136182473 @default.
W4294840052 cites W2147745468 @default.
W4294840052 cites W2150704630 @default.
W4294840052 cites W2162236984 @default.
W4294840052 cites W2201932394 @default.
W4294840052 cites W2208136296 @default.
W4294840052 cites W2214725465 @default.
W4294840052 cites W2274522136 @default.
W4294840052 cites W2296907059 @default.
W4294840052 cites W2305579928 @default.
W4294840052 cites W2346026347 @default.
W4294840052 cites W2472046813 @default.
W4294840052 cites W2517957285 @default.
W4294840052 cites W2536247042 @default.
W4294840052 cites W2579516636 @default.
W4294840052 cites W2609852421 @default.
W4294840052 cites W2610350738 @default.
W4294840052 cites W2620318785 @default.
W4294840052 cites W2700118877 @default.
W4294840052 cites W2738874531 @default.
W4294840052 cites W2765147531 @default.
W4294840052 cites W2788492374 @default.
W4294840052 cites W2793481198 @default.
W4294840052 cites W2904228164 @default.
W4294840052 cites W2912222586 @default.
W4294840052 cites W2922196998 @default.
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W4294840052 cites W3031997423 @default.
W4294840052 cites W3049067156 @default.
W4294840052 cites W3092481794 @default.
W4294840052 cites W3130590070 @default.
W4294840052 cites W3213048632 @default.
W4294840052 cites W4207029893 @default.
W4294840052 doi "https://doi.org/10.1016/j.energy.2022.125353" @default.
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