000			02265nam a2200181Ia 4500
008			240829s9999 xx 000 0 und d
082			_aMBEP TH-0104 _bARO
100			_aArora, Mokshika (PBE22202) _998846
245		0	_aEarly design approach for ensuring visual comfort using optimized shading for office buildings (Softcopy is also available)
260			_c2024
300			_aix,39p.
505			_aTable Of Contents Abstract I Undertaking Ii Certificate Iii Acknowledgements Iv Abbreviations V Table Of Contents Vi List Of Figures Vii List Of Tables Ix Chapter-1: Introduction 10 1.1 External Shading Device 10 1.2 Early Design Stage 11 1.3 Existing Methods 11 1.4 Material Selection 12 1.5 Aim & Reliability. 12 Chapter-2: Literature Review 13 2.1 Indian Standards & Existing Daylight Metrices: 13 2.1.1 Projection Factor 13 2.1.2 Glare Metrics. 14 2.1.3 Daylight Access: 14 2.2 Performance Quantification Of Shading Devices: 15 2.3 Basis Of Glare Mitigation Methodology: 15 2.4 Perforation Geometry Exploration 17 2.5 Existing Early Design Methods For Shading Device: 18 2.6 Multi-Dimensional Approach For Shading Devices. 18 2.7 Summary 18 Chapter-3: Methodology 19 3.1 Input Parameters: 19 3.1.1 Constants: 20 3.1.2 Variables: 21 3.2 Key Performance Indexes (As An After Check): 21 3.3 Base Case (No Shading): 22 3.4 Step 1 (Base Overdesigned Geometry-Ecbc Compliant): 22 3.5 Step 2 (Optimising Geometry With Shaderade): 23 3.6 Step 3 (Projecting Guth Position Index For Visual Comfort): 26 3.7 Step 5 (Overlapping Results & Introducing Perforations): 27 3.7.1 Method Of Creating Openness Ratio/Percentage In Shading Device 28 3.8 Summarizing Methodolgy 28 Chapter-4: Results 29 4.1 Thermal Performance 29 4.2 Dgp V/S Da 30 4.3 Physical Model 31 4.4 Lightstanza Results 32 4.5 Inter-City Comparison 34 4.5.1 South Orientation 34 Chapter-5: Conclusion 35 References 37 Appendix 39 Appendix A 39
700			_aAgarwal, Minu (Guide)
890			_aIndia
891			_a2022 Batch
891			_aFT-PG
891			_aMasters of Technology in Building Energy Performance
999			_c72514 _d72514