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Selection of energy efficiency measures to enhance the effectiveness of pre-cooling in residential buildings in hot arid climate
Energy efficiency represents the most cost-effective way to achieve energy goals, as it does not require investment in renewable energy and is often achievable through low-cost technology retrofits or behavior modifications. This study investigates the impacts of energy efficiency measures on the ef...
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Published in: | Science & technology for the built environment 2017-07, Vol.23 (5), p.858-867 |
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container_title | Science & technology for the built environment |
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creator | Arababadi, Reza Elzomor, Mohamed Parrish, Kristen |
description | Energy efficiency represents the most cost-effective way to achieve energy goals, as it does not require investment in renewable energy and is often achievable through low-cost technology retrofits or behavior modifications. This study investigates the impacts of energy efficiency measures on the effectiveness of pre-cooling in residential buildings as a means of reducing operating peak loads and costs in a home. This study simulated (and validated the simulation through monitoring) a typical residential building in Phoenix, Arizona to analyze the impact of upgrading a residential building that implements pre-cooling with two scenarios: (1) match the benchmark of ASHRAE 90.2-2007, and (2) surpass the standard by enhancing its properties to reduce the total energy demand by 20%. This article contributes to the body of knowledge by demonstrating a method to identify and select those types of efficiency measures that best enhance the effectiveness of pre-cooling strategies in residential buildings in a hot-arid climate. |
doi_str_mv | 10.1080/23744731.2016.1262660 |
format | article |
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title | Selection of energy efficiency measures to enhance the effectiveness of pre-cooling in residential buildings in hot arid climate |
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