PV_window_building_study
Publicly accessible
License
Data associated with the paper ?Photovoltaic Windows to Offset the Intensive Energy and Carbon Footprints of Highly Glazed Buildings? by Vincent M. Wheeler, Janghyun Kim, Tom Daligault, Bryan Rosales, Chaiwat Engtrakul, Robert C. Tenent, and Lance M. Wheeler
Citation Formats
Chemistry & Nanoscience. (2022). PV_window_building_study [data set]. Retrieved from https://data.nrel.gov/submissions/199.
Wheeler, . PV_window_building_study. United States: N.p., 24 Oct, 2022. Web. https://data.nrel.gov/submissions/199.
Wheeler, . PV_window_building_study. United States. https://data.nrel.gov/submissions/199
Wheeler, . 2022. "PV_window_building_study". United States. https://data.nrel.gov/submissions/199.
@div{oedi_8250, title = {PV_window_building_study}, author = {Wheeler, .}, abstractNote = {Data associated with the paper ?Photovoltaic Windows to Offset the Intensive Energy and Carbon Footprints of Highly Glazed Buildings? by Vincent M. Wheeler, Janghyun Kim, Tom Daligault, Bryan Rosales, Chaiwat Engtrakul, Robert C. Tenent, and Lance M. Wheeler }, doi = {}, url = {https://data.nrel.gov/submissions/199}, journal = {}, number = , volume = , place = {United States}, year = {2022}, month = {10}}
Details
Data from Oct 24, 2022
Last updated Dec 18, 2024
Submitted Oct 24, 2022
Organization
Chemistry & Nanoscience
Contact
Lance Wheeler
Authors
Original Source
https://data.nrel.gov/submissions/199Research Areas
DOE Project Details
Project Name Combining high thermal performance, switchability, and energy generation into a unified durable window platform
Project Number DE-AC36-08GO28308
