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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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50%; open Cheng,V., Ng. E. and Givoni, B. (2007) Find in CUMINCAD Outdoor Thermal Comfort for Hong Kong People: A Longitudinal Study , PLEA 2007: Proceedings of the 24th Passive and Low Energy Architecture, Singapore
50%; open Chow, T. (2010) Find in CUMINCAD A review on photovoltaic / thermal hybrid solar technology , Applied Energy, 87(2), 365–379
50%; open D'Orazio, M., Di Perna, C. and Di Giuseppe, E. (1627) Find in CUMINCAD The effects of roof covering on the thermal performance of highly insulated roofs in Mediterranean climates , Energy and Buildings, Volume 42, Issue 10, Pages 1619-1627. Available at: https://doi.org/10.1016/j.enbuild.2010.04.004. (Accessed: 15 February 2022)
50%; open D. Gossard, B. Lartigue, and F. Thellier (2013) Find in CUMINCAD Multi-objective optimization of a building envelope for thermal performance using genetic algorithms and artificial neural network , Energy Build., vol. 67, pp. 253–260
50%; open Datta, G (2001) Find in CUMINCAD Effect of fixed horizontal louver shading devices on thermal perfomance of building by TRNSYS simulation. , Renewable energy, 23(3), pp. 497-507
50%; open de Boer, B., Ruijg, G. J., Bakker, L., Kornaat, W., Zonneveldt, L., Kurvers, S., Alders, N., Raue, A., Hensen, J., Loonen, R. and Trcka, M. (2011) Find in CUMINCAD Energy saving potential of climate adaptive building shells – Inverse modelling of optimal thermal and visual behavior , Proceedings of the International Adaptive Architecture Conference, London, 16
50%; open Delgarm N, Sajadi B, Delgarm S, et al. (2016) Find in CUMINCAD Multi-objective optimization of building energy performance and indoor thermal comfort: A new method using artificial bee colony (ABC) , Energy & Buildings, 2016, 131(11):42-53.
50%; open Delgarm, N, Sajadi, B and Delgarm, S (2016) Find in CUMINCAD Multi-objective optimization of building energy performance and indoor thermal comfort: A new method using artificial bee colony (ABC) , Energy and Buildings, 131, pp. 42-53
50%; open Demisse, G. G., Borrmann, D. & Nüchter, A. (2015) Find in CUMINCAD Interpreting Thermal 3D Models of Indoor Environments for Energy Efficiency , Journal of Intelligent & Robotic Systems, 77(1), 55-72
50%; open Desert A, Naboni E and Garcia D (2020) Find in CUMINCAD The spatial comfort and thermal delight of outdoor misting installations in hot and humid extreme environments , Energy and Buildings 2020; 224: 110202.
50%; open Dowd, RM and Mourshed, M (2015) Find in CUMINCAD Low carbon Buildings: Sensitivity of Thermal Properties of Opaque Envelope Construction and Glazing , Energy Procedia, 75, pp 1284-1289
50%; open Duffie, J.A. and Beckman, W.A. (1974) Find in CUMINCAD Solar Energy Thermal Processes , John Wiley & Sons, Inc., New York
50%; open Elghamry, R. and Hassan, H. (2020) Find in CUMINCAD Impact of window parameters on the building envelope on the thermal comfort, energy consumption and cost and environment , International Journal of Ventilation, 19(4), pp. 233-259. Available at: https://doi.org/10.1080/14733315.2019.1665784
50%; open Evangelisti, L., C. Guattari, and F. Asdrubali (2019) Find in CUMINCAD Comparison between heat-flow meter and Air-Surface Temperature Ratio techniques for assembled panels thermal characterization , Energy and Buildings, 203, p. 109441
50%; open Faghih AK and Bahadori MN (2011) Find in CUMINCAD Thermal performance evaluation of domed roofs , Energy Build 2011; 43:1254–1263
50%; open Faheem, A (2016) Find in CUMINCAD A numerical study on the thermal performance of night ventilated hollow core slabs cast with micro-encapsulated PCM concrete , Energy & Buildings, 127, pp. 892-906
50%; open Fahmy, M, & Elwy, I (2016) Find in CUMINCAD Visual and Thermal Comfort Optimization for Arid Urban Spaces using Parametric Techniques on the Scale of Compactness Degree , 36th International Conference on Pasive and Low Energy Architecture (pp 1051-1059) Los Angeles: PLEA
50%; open Falk Schaudienst and Frank U. Vogdt (2017) Find in CUMINCAD Fanger’s Model of Thermal Comfort: A Model Suitable Just for Men? , Energy Procedia 132: 129–34. https://doi.org/10.1016/j.egypro.2017.09.658
50%; open Fan, Z., Liu, M., Tang, S., & Zong, X. (2023) Find in CUMINCAD Integrated daylight and thermal comfort evaluation for tropical passive gymnasiums based on the perspective of exercisers , Energy and Buildings, 300, 113625
50%; open Ferrara M., Sirombo E., and Fabrizio E. (2018) Find in CUMINCAD Automated optimization for the integrated design process: the energy, thermal and visual comfort nexus , Energy Build 2018; 168: 413–427

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