Energy-efficient building technologies

Research output: Chapter in Book/Report/Conference proceedingChapterpeer-review

3 Scopus citations

Abstract

Buildings consume one-third of the total final energy produced on the globe and are responsible for almost 40 percent of total carbon dioxide generation annually. The latest carbon dioxide burden of buildings approached 10 Gigatons in the year 2019. Energy-efficient building technologies are necessary to address the climate change induced by greenhouse gases and fulfill the growth in demand and continuously depleting energy reserves. To meet the net-zero carbon footprint goals, sustainable, renewable energy resources, efficient building technologies, and demand management strategies are needed. Achieving zero emissions will require buildings to be equipped with energy-efficient technologies while completely avoiding on-site fossil fuel consumption and being only powered by renewable energy. In this context, this chapter provides an overview of various building technologies, including envelopes, materials, equipment, appliances, and integration concepts, which will play a significant role in lowering the overall energy consumption in both existing building stock and new buildings. Specifically, the following areas are discussed in detail: emerging building envelope designs, thermal comfort and refrigeration equipment, bridging technologies for improved energy efficiency in the ongoing energy transition, hybrid renewable (photovoltaic) configurations, energy storage technologies, miscellaneous appliances, refrigerants, and renewable fuels. The influence of key design and operating characteristics on annual carbon footprint is presented.

Original languageEnglish
Title of host publicationAdvanced Nanomaterials and Their Applications in Renewable Energy, Second Edition
PublisherElsevier
Pages3-33
Number of pages31
ISBN (Electronic)9780323998772
ISBN (Print)9780323917131
DOIs
StatePublished - Jan 1 2022

Keywords

  • Appliances
  • Building equipment
  • Carbon dioxide
  • Carbon intensity
  • Cogeneration
  • Cooling
  • Decarbonization
  • Dehumidification
  • Envelope
  • Heating
  • Hydrogen
  • Refrigerants
  • Refrigeration
  • Thermal load

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