Masanori Shukuya
Masanori Shukuya
Department of Restoration Ecology and Built Environment
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Cited by
Cited by
Introduction to the concept of exergy-for a better understanding of low-temperature-heating and high-temperature-cooling systems
M Shukuya, A Hammache
VTT Technical Research Centre of Finland, 2002
Verification of stochastic models of window opening behaviour for residential buildings
M Schweiker, F Haldi, M Shukuya, D Robinson
Journal of Building Performance Simulation 5 (1), 55-74, 2012
Comparison of theoretical and statistical models of air-conditioning-unit usage behaviour in a residential setting under Japanese climatic conditions
M Schweiker, M Shukuya
Building and Environment 44 (10), 2137-2149, 2009
Exergy concept and its application to the built environment
M Shukuya
Building and Environment 44 (7), 1545-1550, 2009
Exergy: theory and applications in the built environment
M Shukuya
Springer Science & Business Media, 2012
A relation between calculated human body exergy consumption rate and subjectively assessed thermal sensation
A Simone, J Kolarik, T Iwamatsu, H Asada, M Dovjak, L Schellen, ...
Energy and Buildings 43 (1), 1-9, 2011
Experimental study on discomfort glare caused by windows: subjective response to glare from a simulated window
T Iwata, M Shukuya, N Somekawa, K Kimura
Journal of Architecture, Planning and Environmental Engineering …, 1992
Challenging the assumptions for thermal sensation scales
M Schweiker, X Fuchs, S Becker, M Shukuya, M Dovjak, M Hawighorst, ...
Building Research & Information 45 (5), 572-589, 2017
EXPERIMENTAL STUDY ON DISCOMFORT GLARE CAUSED BY WINDOWS PART 3: Development of a method for evaluating discomfort glare from a large light source
M TOKURA, T Iwata, M Shukuya
Journal of Architecture and Planning (Transactions of AIJ) 61 (489), 17-25, 1996
Comparative effects of building envelope improvements and occupant behavioural changes on the exergy consumption for heating and cooling
M Schweiker, M Shukuya
Energy Policy 38 (6), 2976-2986, 2010
Energy, entropy, exergy and space heating systems
M Shukuya
Healthy Buildings' 94, Proceedings of the 3rd International Conference, 369-374, 1994
Discomfort caused by wide-source glare
T Iwata, KI Kimura, M Shukuya, K Takano
Energy and Buildings 15 (3-4), 391-398, 1990
Reduce CO2 from buildings with technology to zero emissions
F Meggers, H Leibundgut, S Kennedy, M Qin, M Schlaich, W Sobek, ...
Sustainable Cities and Society 2 (1), 29-36, 2012
Analysis on exergy consumption patterns for space heating in Slovenian buildings
M Dovjak, M Shukuya, BW Olesen, A Krainer
Energy policy 38 (6), 2998-3007, 2010
Theoretical analysis on ground source heat pump and air source heat pump systems by the concepts of cool and warm exergy
R Li, R Ooka, M Shukuya
Energy and Buildings 75, 447-455, 2014
Human-body exergy balance calculation under un-steady state conditions
K Tokunaga, M Shukuya
Building and Environment 46 (11), 2220-2229, 2011
Exergy analysis of a hybrid ground-source heat pump system
K Menberg, Y Heo, W Choi, R Ooka, R Choudhary, M Shukuya
Applied Energy 204, 31-46, 2017
Exergy Analysis of Conventional and Low Exergy Systems for Heating and Cooling of Near Zero Energy Buildings.
M Dovjak, M Shukuya, A Krainer
Strojniski Vestnik/Journal of Mechanical Engineering 58, 2012
Exergy-entropy process of passive solar heating and global environmental systems
M Shukuya, D Komuro
Solar energy 58 (1-3), 25-32, 1996
Adaptive comfort from the viewpoint of human body exergy consumption
M Schweiker, M Shukuya
Building and Environment 51, 351-360, 2012
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