| 000 | 01908nam a2200169Ia 4500 | ||
|---|---|---|---|
| 008 | 180516s9999||||xx |||||||||||||| ||und|| | ||
| 082 |
_aSA TH-0011 _bKUM |
||
| 100 | _aKumar, Raushan | ||
| 245 | 0 | _aImproving daylight condition of high rise office building in high density urban fabric of Mumbai (Also available on CD) | |
| 260 | _c2013 | ||
| 300 | _ax,93p.,CD-ROM | ||
| 505 | _a1. Chapter – I: Introduction 1 1.1. Deep Plan Office Buildings 2 1.2. Day lighting for energy Efficiency 3 1.3. Day lighting technologies and devices 4 1.4. Research Aim and Objective 5 1.4.1. Aim 5 1.4.2. Objectives 5 1.4.3. Scope 5 1.4.4. Limitations 6 1.4.5. Timeframe: 6 2. Chapter – II: Design and construction of the devices 7 2.1. Light shelves: 8 2.2. Anidolic lighting ducts: 9 3. Chapter – III: Designing a Base Case and Simulation parameters. 11 3.1. Case Studies 11 3.1.1. Advinus Tata 11 3.1.2. Mindtree 13 3.1.3. J.K. Infotech 14 3.1.4. Zebra Technologies 16 3.1.5. TCG International Biotech Park 17 3.2. Designing a Base Case: 19 3.2.1. Floor area: 19 3.2.2. Height of the building: 19 3.2.3. Size of the opening and WWR: 20 3.2.4. Type of Glazing and VTL: 21 3.2.5. Orientation: 21 3.3. Setting design parameters for the Base Case: 22 3.3.1. Designing a Base case 22 3.3.2. Variables and Input Parameters: 24 3.4. Simulation Parameters 26 3.4.1. Location: 27 3.4.2. Summary 28 4. Chapter – IV: Comparative Analysis: 29 4.1. Percentage amount of day light area under Clear sky and over cast sky conditions. 29 4.1.1. Observations on the basis of Devices: 31 4.1.2. Observations on the basis of changing WWR: 31 4.2. Analysis for Day light Penetration: 33 5. Chapter – V: Conclusion 47 7. Bibliography 54 8. Apendix 57 | ||
| 700 | _aRaje, Nitin (Guide) | ||
| 891 | _a2011 Batch | ||
| 891 | _aFA-PG | ||
| 891 | _aSustainable Architecture | ||
| 999 |
_c50877 _d50877 |
||