公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
2010 | A comparative study on the thermal environment of green roof garden under black veil shading versus bare slab | KUO-TSANG HUANG ; Lin, T.-P.; Tsai, J.-J.; Han, Y.-H. | IET Conference Publications | | | |
2015 | Analysis and benchmarking of greenhouse gas emissions of luxury hotels | KUO-TSANG HUANG | International Journal of Hospitality Management | 35 | 34 | |
2020 | Analysis of the habitat fragmentation of ecosystems in belize using landscape metrics | Flowers, B.; KUO-TSANG HUANG ; Aldana, G.O. | Sustainability (Switzerland) | | 23 | |
2020 | Application of random forest and ICON models combined with weather forecasts to predict soil temperature and water content in a greenhouse | Tsai, Yi-Zhih; Hsu, Kan-Sheng; Wu, Hung-Yu; Lin, Shu-I.; HWA-LUNG YU ; KUO-TSANG HUANG ; MING-CHE HU ; SHAO-YIU HSU | Water (Switzerland) | 13 | 12 | |
2022 | Considering transient UTCI and thermal discomfort footprint simultaneously to develop dynamic thermal comfort models for pedestrians in a hot-and-humid climate | Hwang, RL; Weng, YT; KUO-TSANG HUANG | BUILDING AND ENVIRONMENT | 9 | 8 | |
2015 | Design and energy performance of a buoyancy driven exterior shading device for building application in Taiwan | KUO-TSANG HUANG ; Liu, K.F.-R.; Liang, H.-H. | Energies | | | |
2005 | Design standard of energy conservation for building hvac system - a simplified method of chiller capacity estimation based on building envelope energy conservation index in taiwan | KUO-TSANG HUANG ; Lin, H.-T. | International Building Performance Simulation Association 2005 | | | |
2007 | Development of simplified estimation method of chiller energy use for office buildings in Taiwan | KUO-TSANG HUANG ; Lin, H.-T. | ASHRAE Transactions | | | |
2022 | Development of the thermal performance index for office building envelope in Asian hot-humid climate zones considering global warming | Chang, Sheng Fen; Chen, Wei An; Hwang, Ruey Lung; Shih, Wen Mei; KUO-TSANG HUANG | Building Simulation Conference Proceedings | 0 | 0 | |
2013 | Energy consumption characteristics of hotel's marketing preference for guests from regions perspective | Wang, J.C.; KUO-TSANG HUANG | Energy | | | |
2023 | Energy performance of school roofing materials in hot and humid climates | Chang, Jui Ho; KUO-TSANG HUANG ; Wang, Jen Chun | Case Studies in Construction Materials | 0 | | |
2010 | Establishing a typical solar radiation year time series for the application of building integrated photovoltaic systems in Taiwan | KUO-TSANG HUANG ; Ou, W.-S. | IET Conference Publications | | | |
2016 | Future trends of residential building cooling energy and passive adaptation measures to counteract climate change: The case of Taiwan | KUO-TSANG HUANG ; Hwang, R.-L. | Applied Energy | | | |
2019 | Generating hourly local weather data with high spatially resolution and the applications in bioclimatic performance | Lin F.-Y.; KUO-TSANG HUANG ; Lin T.-P.; Hwang R.-L. | Science of the Total Environment | | | |
2011 | Global radiation for solar architecture design of Taiwan | Ou, W.S.; KUO-TSANG HUANG ; Liao, C.C. | Applied Mechanics and Materials | | | |
2015 | Greenhouse gas emissions of tourism-based leisure farms in Taiwan | KUO-TSANG HUANG ; Wang, Jen Chun | Sustainability | | | |
2020 | Identifying a suitable hourly solar diffuse fraction model to generate the typical meteorological year for building energy simulation application | KUO-TSANG HUANG | Renewable Energy | | 19 | |
2018 | Identifying outdoor thermal risk areas and evaluation of future thermal comfort concerning shading orientation in a traditional settlement | KUO-TSANG HUANG ; Yang S.-R.; Matzarakis A.; Lin T.-P. | Science of the Total Environment | | | |
2019 | Identifying suitable general circulation model for future building cooling energy analysis | KUO-TSANG HUANG ; Hwang, Ruey Lung; Weng, Yu Teng | E3S Web of Conferences | | | |
2017 | Impact of street canyon typology on building's peak cooling energy demand: A parametric analysis using orthogonal experiment | KUO-TSANG HUANG ; Li, Y.-J. | Energy and Buildings | | | |