000			02188nam a2200181Ia 4500
999			_c55064 _d55064
008			180908s9999||||xx |||||||||||||| ||und||
082			_aMBEP TH-0007 _bDHO
100			_aDhonde, Kurva (PT500316) _962343
245		0	_aEnergy use prediction of buildings with different methods of calculating SHGC of shaded windows (Softcopy is also available)
260			_c2018
300			_axii,40p.
505			_aCONTENTS 1. Introduction 1 1.1. Background 1 1.2. Purpose Statement 4 1.3. Research questions 5 1.4. Research objectives 5 1.5. Need for the study 5 1.6. Limitations of the study 5 2. Literature Review 6 2.1. Windows in Buildings 6 2.2. Heat Gains through windows 6 2.3. Solar Heat Gain Coefficient 7 2.4. Reduction of heat gains through Windows 8 2.5. Heat gain through windows with shading devices 9 3. Methodology 11 3.1. Calculations for SHGC 11 3.1.1. Calculation of eSHGC 11 3.1.2. Calculation of wSHGCu and wSHGCs 13 3.2. Analysis for variation in SHGC 15 3.3. Energy Simulations 15 3.3.1. Base Case models for simulation 15 3.3.2. Input data 16 3.3.3. Simulations 16 3.4. Analysis of simulation results 16 4. Results and Analysis 17 4.1. Differences in the algorithms 17 4.1.1. eSHGC 17 4.1.2. wSHGCs 17 4.2. Differences in SHGC values 18 4.2.1. Difference due to location 18 4.2.2. Difference due to climate 19 4.2.3. Difference due to depth of overhangs 19 4.3. Impacts on solar gains due to different SHGC values 20 4.3.1. Annual Gains 20 4.3.2. Monthly Gains 22 4.4. Impact on cooling energy 24 4.5. Limit for wSHGC calculation 25 5. Conclusions 26 References 27 Appendix 28 Appendix A.1. Climate Zone Map of INDIA 28 Appendix A.2. Glazing Details (from WINDOW 6.0) 29 Appendix A.3. Models used for simulations 31 Appendix A.4. Declination of the Earth 37 Appendix A.5. Sun-path diagrams for the studied cities 38 Appendix A.6. Simulation Results 39
700			_aDamle, Rashmin (Guide) _962737
890			_aIndia
891			_a2016 Batch
891			_aFT-PG
891			_aMasters of Technology in Building Energy Performance