@inproceedings{6e8cd3c82ae34d5e82639f5130ad9e1f,
title = "Building-integrated carbon capturing 2.0: Moving a concept from R&D to a prototype",
abstract = "Building-integrated carbon capturing is a system that provides carbon dioxide (CO2) capture and regeneration within buildings using a moisture-swing air capture technology developed by Dr. Klaus Lackner at Arizona State University{\textquoteright}s Centre for Negative Carbon Emissions. This paper serves as a continual ideation towards moving a concept from the research and development phase into prototype development to perform experimental evaluation of how such a project would perform in real-life scenarios. We intend to build on strengths and overcome past design weaknesses through cross-industry innovation to create a more robust mechanism that is capable of carbon capture and regeneration.",
keywords = "Building-integrated, Capture, Carbon, CO2, Shade",
author = "Harvey Bryan and Salamah, {Fahad B.E.N.}",
year = "2018",
language = "English (US)",
series = "PLEA 2018 - Smart and Healthy within the Two-Degree Limit: Proceedings of the 34th International Conference on Passive and Low Energy Architecture",
publisher = "School of Architecture, The Chinese University of Hong Kong",
pages = "110--115",
editor = "Edward Ng and Square Fong and Chao Ren",
booktitle = "PLEA 2018 - Smart and Healthy within the Two-Degree Limit",
note = "34th International Conference on Passive and Low Energy Architecture: Smart and Healthy Within the Two-Degree Limit, PLEA 2018 ; Conference date: 10-12-2018 Through 12-12-2018",
}