| 000 | 07595cam a22003377i 4500 | ||
|---|---|---|---|
| 001 | 44648 | ||
| 008 | 160812s2017 flu b 001 0 eng | ||
| 010 | _a 2016036317 | ||
| 020 |
_a9781498744515 _qhardback : alk. paper |
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| 020 |
_z9781498744522 _qebook |
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| 035 | _a(OCoLC) | ||
| 040 |
_aDLC _beng _cDLC _erda _dBAUN |
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| 049 | _aBAUN_MERKEZ | ||
| 050 | 0 | 0 |
_aTJ163.5.B84 _bG37 2017 |
| 082 | 0 | 0 | _223 |
| 100 | 1 | _aGarg, Vishal, | |
| 245 | 1 | 0 |
_aBuilding energy simulation : _ba workbook using DesignBuilder / _cVishal Garg, Jyotirmay Mathur, Surekha Tatali, and Aviruch Bhatia. |
| 264 | 1 |
_aBoca Raton : _bTaylor & Francis, a CRC title, part of the Taylor & Francis imprint, a member of the Taylor & Francis Group, the academic division of T&F Informa, plc, _c[2017] |
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| 300 |
_a464 pages : _billustrations ; _c23 cm. |
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| 336 |
_atext _btxt _2rdacontent |
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| 337 |
_aunmediated _bn _2rdamedia |
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| 338 |
_avolume _bnc _2rdacarrier |
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| 504 | _aIncludes bibliographical references and index. | ||
| 505 | 0 | 0 |
_t Preface xi _t Acknowledgements xiii _t Authors xv _t Building energy simulation 1 _t What is needed for energy simulation 2 _t How simulation software works 3 _t1. Getting Started with Energy Simulation 1 _tTutorial 1.1 Opening and simulating an example file 4 _tTutorial 1.2 Creating a single-zone model 16 _tTutorial 1.3 Evaluating the impact of building location and orientation 31 _tTutorial 1.4 Evaluating the impact of opaque envelope components 41 _tTutorial 1.5 Evaluating the impact of WWR and glass type 48 _tTutorial 1.6 Evaluating the impact of occupancy density 64 _tTutorial 1.7 Evaluating the impact of space activity 67 _tTutorial 1.8 Evaluating the impact of lighting and equipment power 75 _tTutorial 1.9 Evaluating the impact of daylight controls 78 _tTutorial 1.10 Evaluating the impact of setpoint temperature 85 _tTutorial 1.11 Evaluating the impact of fresh air supply 88 _t2. Geometry of Buildings 91 _tTutorial 2.1 Defining thermal zoning for a building 92 _tTutorial 2.2 Evaluating the effect of a zone multiplier 98 _tTutorial 2.3 Evaluating the impact of the aspect ratio 102 _tTutorial 2.4 Evaluating the impact of adjacency of the surface 110 _t3. Material and Construction 115 _tTutorial 3.1 Evaluating the effect of lightweight and heavyweight construction 116 _tTutorial 3.2 Evaluating the impact of roof insulation 126 _tTutorial 3.3 Evaluating the impact of the position of roof insulation 132 _tTutorial 3.4 Evaluating the impact of the air gap between roof layers 136 _tTutorial 3.5 Evaluating the impact of surface reflectance 140 _tTutorial 3.6 Evaluating the impact of roof underdeck radiant barrier 146 _tTutorial 3.7 Evaluating the impact of a green roof 150 _t4. Openings and Shading 155 _tTutorial 4.1 Evaluating the impact of window wall ratio and glazing type 156 _tTutorial 4.2 Evaluating the impact of overhangs and fins 168 _tTutorial 4.3 Evaluating the impact of internal operable shades 178 _t5. Lighting and Controls 189 _tTutorial 5.1 Evaluating the impact of daylighting-based controls 189 _tTutorial 5.2 Evaluating the impact of daylight sensor placement 193 _t6. Heating and Cooling Design 209 _tTutorial 6.1 Evaluating the impact of temperature control types 209 _tTutorial 6.2 Evaluating the impact of design day selection 222 _tTutorial 6.3 Evaluating the impact of the air flow calculation method 229 _t7. Unitary HVAC Systems 235 _tTutorial 7.1 Evaluating the impact of unitary air conditioner COP 235 _tTutorial 7.2 Evaluating the impact of the fan efficiency of a unitary air conditioning system 241 _tTutorial 7.3 Evaluating the impact of fan pressure rise 247 _t8. Central HVAC System 253 _tTutorial 8.1 Evaluating the impact of air-cooled and water-cooled chillers 253 _tTutorial 8.2 Evaluating the impact of variable speed drive (VSD) on a chiller 263 _tTutorial 8.3 Evaluating the impact of VSD on a chilled water pump 272 _tTutorial 8.4 Evaluating the impact of a cooling tower fan type 276 _tTutorial 8.5 Evaluating the impact of condenser water pump with VSD 280 _tTutorial 8.6 Evaluating the impact of an air-side economiser 283 _tTutorial 8.7 Evaluating the impact of supply air fan operation mode during unoccupied hours 288 _tTutorial 8.8 Evaluating the impact of heat recovery between fresh and exhaust air 292 _tTutorial 8.9 Evaluating the impact of boiler nominal thermal efficiency 301 _t9. Simulation Parameters 305 _tTutorial 9.1 Evaluating the impact of time steps per hour on run time 306 _tTutorial 9.2 Evaluating the impact of the solar distribution algorithm 310 _tTutorial 9.3 Evaluating the impact of the solution algorithm 316 _tTutorial 9.4 Evaluating the effect of the inside convection algorithm 319 _tTutorial 9.5 Evaluating the impact of the shadowing interval 324 _t10. Natural Ventilation 327 _tTutorial 10.1 Evaluating the impact of wind speed on natural ventilation 328 _tTutorial 10.2 Evaluating the impact of natural ventilation with constant wind speed and direction 336 _tTutorial 10.3 Evaluating the impact of window opening and closing schedule 346 _tTutorial 10.4 Evaluating the impact of window opening control based on temperature 349 _tTutorial 10.5 Evaluating the impact of window opening area modulation on natural ventilation 360 _tTutorial 10.6 Evaluating the impact of mixed mode operation 369 _t11. Building Energy Code Compliance 381 _tTutorial 11.1 Simulating building performance in four orientations 382 _tTutorial 11.2 Creating the base case external wall for ASHRAE 90.1-2010 Appendix G 384 _tTutorial 11.3 Modelling flush windows for the base case 386 _tTutorial 11.4 Selecting HVAC system for the base case 387 _tTutorial 11.5 Calculating fan power for the base case 388 _tTutorial 11.6 Understanding fan cycling 390 _tTutorial 11.7 Specifying room air to supply air temperature difference 390 _tTutorial 11.8 Number of chillers in the base case 391 _tTutorial 11.9 Defining chilled-water supply temperature reset for the base case 396 _tTutorial 11.10 Type and number of boilers for the base case 398 _tTutorial 11.11 Defining hot-water supply temperature reset 399 _tTutorial 11.12 Hot-water pumps 401 _tTutorial 11.13 Defining exhaust air energy recovery parameters 401 _tTutorial 11.14 Defining economiser parameters 402 _tTutorial 11.15 Finding unmet hours after simulation 403 _tTutorial 11.16 Generating the performance rating method compliance report in DesignBuilder 403 _tTutorial 11.17 Finding process load for the base case 405 _tTutorial 11.18 Getting ASHRAE 62.1 standard summary in DesignBuilder 406 _t Reference 407 _t12. Project: Small Office 409 _t Project goal 409 _t Overview 409 _t Climate and location 409 _t Floor plans 411 _t Building envelope 413 _t Internal loads and schedules 414 _t Mechanical systems 416 _t13. Project: Single-Family Residence 419 _t Project goal 419 _t Overview 419 _t Climate and location 421 _t Floor plans 421 _t Internal loads and schedules 424 _t Building envelope 431 _t Mechanical systems 434 _t IECC 2015 _t compliance 435 _t14. Project: Large Office 437 _t Project goal 437 _t Overview 437 _t Climate and location 437 _t Floor plans 439 _t Building envelope 441 _t Internal loads and schedules 441 _t Mechanical systems 443 _t Show compliance for ASHRAE 90.1-2010 444 _t Appendix A: Working of EnergyPlus[™] Simulation 447 _t Appendix B: Weather Data and Tools 451 |
| 650 | 0 |
_aBuildings _xEnergy conservation. |
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| 650 | 0 |
_aBuildings _xMechanical equipment _xComputer simulation. |
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| 700 | 1 | _aMathur, Jyotirmay, | |
| 700 | 1 | _aTatali, Surekha, | |
| 700 | 1 | _aBhatia, Aviruch, | |
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_2lcc _cKT |
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