Case Study: sustainable rammed earth model house
ID:212 Submission ID:132 View Protection:ATTENDEE Updated Time:2022-05-26 13:16:55 Hits:763 Oral Presentation

Start Time:2022-05-27 10:50 (Asia/Shanghai)

Duration:15min

Session:[S2] Environmental Science and Engineering » [S2-2] Theme 3 & 4

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Abstract
This paper describes a case study using energy efficient, environmentally beneficial construction technologies based on the sustainable use of land resources. Rammed earth is a sustainable construction material providing many benefits for the environment including natural materials, universal availability, durability, recyclability, low embodied energy, low CO2 emissions, high thermal mass, traditional construction methods, and low cost for materials, construction, and transportation. Sponsored by the United States Department of Housing and Urban Development (HUD) and the Aleutian Housing Authority (AHA), West Virginia University (WVU) researchers worked in collaboration with the North American Rammed Earth Builders Association to construct a single-family rammed earth residence in Alaska based on what they learned from Hakka rammed earth buildings, as known as Tulous. Those buildings reflect the emergence of innovation, evolution and advancement in the engineering of rammed earth construction in China from the 8th to 20th centuries. Researchers performed material characterization of rammed earth beams at WVU before implementation in the field. The objectives were to adapt rammed earth construction for Alaska and use local materials, local skills (labor), and minimal energy to build a prototype single-family affordable housing unit that can be economically reproduced in the Aleutians and elsewhere. Since the completion of construction in 2018, researchers have been monitoring the thermal comfort and energy usage of the building through sensors. The research findings reveal that this model house demonstrates a high level of living comfort and energy efficiency under extremely cold climate conditions and offers very high resistance to earthquakes. The building survived a local Richter scale 7.1 earthquake on November 30, 2018 without a single crack.
Keywords
rammed earth,sustainable construction,Energy efficiency
Speaker
Hota Gangarao
West Virginia University

After joining West Virginia University in 1969 as Assistant Professor, Dr. Hota attained the rank of Maurice & JoAnn Wadsworth Distinguished Professor in the Department of Civil and Environmental Engineering, Statler College of Engineering and Mineral Resources. He is a Fellow of American Society of Civil Engineers and Structural Engineering Institute. Dr. Hota has been directing the Constructed Facilities Center since 1988 (a Center of Excellence designated by the U.S. Congress in 2000) and the Center for Integration of Composites into Infrastructure, both co-sponsored by the National Science Foundation. Dr. Hota has been working to advance the state-of-the-art of fiber reinforced polymer (FRP) composite materials and their applications to infrastructure systems since 1987. Dr. Hota has field implemented his technical innovations in modular housing, utility poles, highways and bridges, railroad structures and others. In cooperation with USACE, he has been involved in developing and implementing many types of hydraulic structures made of FRP composites. He chairs PIANC’s Working Group 191 on Hydraulic Structures. Dr. Hota has published over 400 technical papers in refereed journals and proceedings, in addition to several textbooks and book chapters. He has received 12 patents and many awards, including SAMPE’s Delmonte award-- only the second faculty member in the forty-year history of this award inception. His accomplishments were covered by CNN, ABC Evening News, WVPBS and others. He testified to US Congress on composites in infrastructure applications for cost effectiveness.

Celina LIANG
West Virginia University

Submission Author
Celina Liang West Virginia University
Hota Gangarao West Virginia University
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