Cumincad : CUMINCAD References : Search Results

CumInCAD is a Cumulative Index about publications in Computer Aided Architectural Design
supported by the sibling associations ACADIA, CAADRIA, eCAADe, SIGraDi, ASCAAD and CAAD futures

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	Kim, J, Zhou, Y, Schiavon, S, Raftery, P and Brager, G (2018) Personal comfort models: Predicting individuals' thermal preference using occupant heating and cooling behavior and machine learning , Building and Environment, 129, pp. 96-106

	Kim, J., Zhou, Y., Schiavon, S., Raftery, P., & Brager, G. (2018) Personal comfort models: Predicting individuals thermal preference using occupant heating and cooling behavior and machine learning , Building and Environment, 129, 96-106. https://doi.org/10.1016/j.buildenv.2017.12.011

	Kimmling, M and Hoffmann, S (2017) Preliminary study of thermal comfort in buildings with PV-powered thermoelectric surfaces for radiative cooling , Improving Residential Energy Efficiency International Conference (IREE), pp. 87-94

	Kong, X F (2014) Numerical study on the thermal performance of building wall and roof incorporating phase change material panel for passive cooling application , Energy & Buildings, 81, pp. 404-415

	Kong, X., Lu, S., Li, Y., Huang, J., & Liu, S. (2014) Numerical Study on the Thermal Performance of Building Wall and Roof Incorporating Phase Change Material Panel for Passive Cooling Application , Energy and Buildings, 81, 44-415. Available at: https://doi.org/https://doi.org/1.116/j.enbuild

	Li, Q, Meng, Q, Cai, J, Yoshino, H and Mochida, A (2009) Applying support vector machine to predict hourly cooling load in the building , Applied Energy, 86(10), pp. 2249-2256

	Montazeri, H., Blocken, B., & Hensena, J. (2015) Evaporative Cooling By Water Spray Systems: Cfd Simulation, Experimental Validation and Sensitivity Analysis , Building and Environment, 83, 129-141. Available at: https://doi.org/1.116/j.buildenv.214.3.22

	Morakinyo, TE, Dahanayake, KWDKC, Ng, E and Chow, CL (2017) Temperature and cooling demand reduction by green-roof types in different climates and urban densities: A co-simulation parametric study , Energy and Buildings, 145, pp. 226-237

	Sarbu I and Sebarchievici C (2017) Thermal energy storage. Solar heating and cooling systems - fundamentals, experiments and applications , Cambridge, MA: Academic Press, 2017, pp. 99–138

	Shashua-Bar, L, Tsiros, IX and Hoffman, M (2012) Passive cooling design options to ameliorate thermal comfort in urban streets of a Mediterranean climate (Athens) under hot summer conditions , Building and Environment, 57, pp. 110-119

	Shehadi, M. (2020) Optimizing solar cooling systems , Case Studies in Thermal Engineering, 21, 100663

	Shen, C and Li, X (2016) Dynamic thermal performance of pipe-embedded building envelope utilizing evaporative cooling water in the cooling season , Applied Thermal Engineering, 106, pp 1103-1113

	Shipkovs, P., Snegirjovs, A., Shipkovs, J., Kashkarova, G., Lebedeva, K. And Migla, L. (2015) Solar Thermal Cooling on the Northernmost Latitudes , Energy Procedia, 70, pp. 510-517

	Solgi, E., Fayaz, R. and Kari, B. M. (2016) Cooling load reduction in office buildings of hot-arid climate, combining phase change materials and night purge ventilation , Renewable Energy, 85, pp. 725-731

	Taleb HM (2014) Using passive cooling strategies to improve thermal performance and reduce energy consumption of residential buildings in UAE buildings , Front Archit Res 2014; 3: 154–165

	Taleb, HM (2014) Using passive cooling strategies to improve thermal performance and reduce energy consumption of residential buildings in U.A.E. buildings , Frontiers of Architectural Research, 3(2), pp. 154-165

	Timmermans, H, van Hooff, T, Merema, B, Janssen, W, Blocken, B and Gromke, C (2014) CFD analysis of transpirational cooling by vegetation: Case study for specific meteorological conditions during a heat wave in Arnhem, Netherlands , Building and Environment, 83, pp. 11-26

	Tsiros, I (2010) Assessment and energy implications of street air temperature cooling by shade tress in Athens (Greece) under extremely hot weather conditions , Renewable Energy, 35, pp. 1866-1869

	Venkiteswaran, VK, Liman, J and Alkaff, SA (2017) Comparative Study of Passive Methods for Reducing Cooling Load , Energy Procedia, 142, p. 419 - 426

	Xiang, Y. and Zhou, G. (2015) Thermal performance of a window-based cooling unit using phase change materials combined with night ventilation , Energy and Buildings, 108, pp. 267-278

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