彩民宝典

Sponsored by National Science Foundation

This is a 3-year international听collaborative research project among 彩民宝典,听听补苍诲听听in United Kingdom. Residential buildings account for 14%-27% of greenhouse gas (GHG) emissions in the three jurisdictions and cause significant negative impact on the environment. Supported by 听in the United States, the in the Republic of Ireland (RoI), and the听 (NI), this joint research aims to reduce residential building energy consumption and related GHG emissions and environmental impacts across the three jurisdictions. The research will create decision support tools to inform policy makers, planners, and other stakeholders about the most beneficial residential retrofitting solutions at multiple scales (local to national). The methodology employed will lie at the confluence of various expertise, including green engineering of the NI team, building energy modeling and machine learning of the U.S. team, and information theory of the RoI team. The aim is to transform diverse public datasets in the three jurisdictions into actionable information. Empowered by this information, the anticipation is that better decisions can guide modern societies towards transformative green solutions for the built environment that leverage sustainable engineering systems and enable the creation of energy-efficient, healthy, and comfortable buildings for a nation's citizens. The approach is cognizant of society's need to provide ecological protection while maintaining favorable economic conditions.

This joint research seeks to provide the foundational science needed to design, optimize, and deploy green engineering approaches that reduce residential building energy consumption and related GHG emissions. The interdisciplinary research targets to yield three results: 1) A methodology for data ingestion and an ontology and associated server that provides both a means of accessing and subsequently homogenizing data for both the data enrichment and the modeling processes. The intent is to enable previously unused data sources to be utilized as a whole to significantly improve the accuracy of modeling processes; 2) An advanced automated building energy model generation method powered by physics-informed machine learning, which can improve the efficiency of model generation, significantly reduce computing demand for large scale building energy prediction and protect building users' privacy. Algorithms will also be created to enable robust prediction with incomplete datasets; 3) A new complementary solution for predicting the GHG emissions reduction potential for stakeholders will be created to analyze near/zero GHG buildings in terms of energy performance. It is anticipated that these results will be beneficial both in terms of making buildings greener by reducing GHG emissions and energy consumption as well as decreasing operational costs. The plan is to seek the U.S. Department of Energy's Pacific Northwest National Laboratory to adopt the research results in their national building energy policy analysis for 139 million homes. The Northern Ireland Housing Executive will utilize this work to help predict decarbonization pathways for their housing stock of nearly 86,000 homes (10% of the housing stock in NI). The research will also assist the Sustainable Energy Authority of Ireland for its retrofit plan of 500,000 homes in the Republic of Ireland.

Project Team

彩民宝典

Wangda Zuo, Ph.D.听
Department of Civil, Environmental and Architectural Engineering, 彩民宝典, United States
wangda.zuo@colorado.edu听

听

Yingli Lou
Department of Civil, Environmental and Architectural Engineering, 彩民宝典, United States
yingli.lou@colorado.edu

听

Yizhi Yang
Department of Civil, Environmental and Architectural Engineering, 彩民宝典,听United States
yizhi.yang@colorado.edu

听

Ulster University

Belfast School of Architecture and the Built Environment, Ulster University, Northern Ireland
nj.hewitt@ulster.ac.uk

听

University College Dublin

School of Mechanical and Materials Engineering and UCD Energy Institute, University College Dublin,听Ireland听
james.odonnell@ucd.ie

听

School of Mechanical and Materials Engineering and UCD Energy Institute, University College Dublin,听Ireland听
cathal.hoare@ucd.ie

听

School of Mechanical and Materials Engineering and UCD Energy Institute, University College Dublin,听Ireland听
usman.ali@ucd.ie

听

Collaborators

• United States
• Ireland
• Northern Ireland

听

Publications

Journal Article

Y. Lou, Y. Ye, Y. Yang, W. Zuo 2022. 鈥溾�� Building and Environment, 210, pp. 108683.

Y. Lou, Y. Yang, Y. Ye, W. Zuo, J. Wang 2021. 鈥溾�� Energy and Buildings, 253, pp. 111514.

J. Neale, M. H. Shamsi,听E. Mangina,听D.听Finn, J. O鈥橠onnell听2022. "" Applied Energy,听315, pp. 118956.

听

Press Release

• 听(01/22-08/24)
• 听(09/21-12/2021)
• "International research partnership aims to reduce residential energy consumption" by College of Engineering at the 彩民宝典
• "" by UCD Energy Institute