INTEGRATED ARCHITECTURAL AND ENGINEERING DESIGN STRATEGIES FOR A ZERO-ENERGY BUILDING:Illinois Institute of Technology’s Design Entry for the 2018 *** of Energy Race to Zero(Solar Decathlon Design Challenge)

作     者：Edoarda Corradi Dell’Acqua Jaime Marin Eric Wright 

作者机构：Department of CivilArchitectural and Environmental EngineeringArmour College of EngineeringIllinois Institute of Technology CEMME Mechanical&Aerospace EngineeringIllinois Institute of Technology LEED Green AssociateME Architectural EngineeringIllinois Institute of Technology 

出 版 物：《Journal of Green Building》 (绿色建筑学报（英文）)

年 卷 期：2021年第16卷第2期

页      面：251-270页

核心收录：

学科分类：0202[经济学-应用经济学] 02[经济学] 020205[经济学-产业经济学] 

基　　金：Armour College of Engineering Diligent Design Group Passive House Institute Soltec Engineers National Renewable Energy Laboratory, NREL 

主　　题：zero-energy buildings integrated design high-performance buildings renewable energy systems energy analysis mixed-use buildings student housing 

摘      要：This paper describes the design of InterTech,a zero-energy mixed-use student residence hall,developed in 2018 by an interdisciplinary team of Illinois Institute of Technology(Illinois Tech)students for the *** of Energy Solar Decathlon Design Challenge,formerly known as Race to *** main focus is the team’s integrated and iterative approach,which blended architectural design and engineering concepts and led to achieving the high-performance *** aims to provide an innovative housing solution to Illinois Institute of Technology’s graduate students and their *** along State Street in between Illinois Tech’s main campus and downtown Chicago,it offers a mix of living options providing both independence and access to the campus and to the *** addition to the residential program,the project includes a small grocery/cafe con-nected to an outdoor public plaza,and an underground *** modeling was introduced in the early design *** potential of on-site renewable energy generation defined the project’s target Energy Use Intensity(EUI)of 37 kBtu/*** passive and active strategies were implemented to reduce the building’s total energy needs and meet the target *** implementation of energy conservation measures led to a 25%reduction of the building’s cooling load and a 33%reduction of the heating load.A design EUI of 28 kBtu/sqft was calculated,validating that this design met and exceeded the zero-energy goal.