Pushing the Envelope-Moving Dynamic Building Envelope Thermal Energy Storage Systems Mainstream: Preprint

Sven Mumme, Bandana Kar, Som Shrestha, Zhenglai Shen, Daniel Howard, Ravi Kishore, Chuck Booten

Research output: Contribution to conferencePaper

Abstract

Buildings contribute to nearly 40% of the U.S. national energy consumption and a significant portion of CO2 emissions. More importantly, disadvantaged communities are disproportionately affected by energy burden and thermal discomfort in their homes. This paper will discuss two novel DOE's BTO supported thermal energy storage (TES) integrated dynamic building envelope technologies, their ability to harvest ambient energy, and improve energy efficiency by reducing HVAC loads and peak electricity demand while enhancing energy and thermal resilience in buildings. The paper will also discuss the recent advancements that have made these systems more affordable and easier to integrate into new and existing buildings. The first solution is a thermally anisotropic building envelope (TABE) system that can redirect ambient thermal energy (heat or coolness) from diurnal outdoor conditions, solar irradiance, and night sky radiation from the envelope to a hydronic loop. The redirected thermal energy can be stored in a TABE-integrated thermal energy storage system and use the stored energy to offset HVAC energy use and peak demand. The second solution is an innovative plug-and-play thermal switch in the form of insertable plugs integrated with a phase change material (PCM). The plug can vary its thermal resistance based on the indoor and outdoor conditions, thus allowing preferential directional heat flow, and enhancing utilization of free ambient cooling and heating to charge/discharge the PCM, much like a solid-state economizer. While the fist solution can be actively controlled, the second solution is passive, requiring no external power, and work solely based on the ambient temperature.
Original languageAmerican English
Number of pages20
StatePublished - 2024
Event2024 Summer Study on Energy Efficiency in Buildings - Pacific Grove, CA
Duration: 4 Aug 20249 Aug 2024

Conference

Conference2024 Summer Study on Energy Efficiency in Buildings
CityPacific Grove, CA
Period4/08/249/08/24

NREL Publication Number

  • NREL/CP-5500-89111

Keywords

  • anisotropic envelope
  • buildings
  • dynamic
  • envelope
  • TES
  • thermal switch

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