![]() More specifically, this project will use advanced manufacturing techniques to streamline the mass-customization process, which is one of the main cost challenges preventing the wide deployment and adoption of envelope retrofits. The results of this project will progress overclad panels for envelope retrofits. This project will also develop preliminary digital manufacturing procedures that take 3D scanned measurements of existing buildings and efficiently progress them from panel design to assembly, as well as help industry identify which advanced manufacturing techniques can modernize building construction, improve productivity, and increase energy efficiency. To accomplish this goal, the project team will develop new printable materials, design methods to use multi-material printing to co-optimize structural and thermal performance, and integrate existing building materials with customized 3D printing parts that expedite the assembly of the overclad panel. This article highlights 4 key envelope-level passive strategies to implement for decarbonizing building. This project will use advanced manufacturing techniques to mass-customize and produce energy-efficient and moisture-durable overclad panels for envelope retrofits. Then, it uses energy-efficient active modes of heating, cooling, ventilation and lighting. Phase 2 awardees will develop and field-validate their retrofit solution from Phase 1 on at least two occupied, operational buildings. Once completed, BTO will conduct a competitive review of this project, along with all Phase 1 projects, to down-select recipients for Phase 2 awards that focus on a whole-building deep energy retrofit solution. ![]() ![]() In 2006, the Australian residential building sector consumed about 11 (around 440 Petajoule) of the total primary energy. The Benefits of Envelope Retrofitting Energy Efficiency: Retrofitting the building envelope can significantly reduce energy consumption by minimizing heat transfer through walls, roofs, and windows, leading to lower utility bills and a reduced carbon footprint. Lead Performer: Oak Ridge National Laboratory – Oak Ridge, TNįunding Type: Advanced Building Construction FOA AwardĪs part of the ABC FOA topic Integrated Building Retrofits, this project is one of a cohort of Phase 1 projects that will design and prototype a technology or approach that provides a deep energy saving retrofit solution for one or more building energy systems. Using Effective Thermal Retrofit of Building Envelope Claire Far 1, Harry Far 2 1-Faculty of Design, Architecture and Building, University of Technology Sydney (UTS), Australia. ![]()
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