Building performance

108: 158:. Further progress on building performance studies took place in parallel with the development of building science as a discipline, and with the introduction of personal computing (especially computer simulation) in the field; for a good overview of the role of simulation in building design see the chapter by Augenbroe. A more general overview that also includes physical measurement, expert judgement and stakeholder evaluation is presented in the book 162:. While energy efficiency, thermal comfort, indoor air quality and (day)lighting are very prominent in the debate on building performance, there is much longer list of building performance aspect that includes things like resistance against burglary, flexibility for change of use, and many others; for an overview see the building performance analysis platform website in the external links below. 149:

Building performance has been of interest to humans since the very first shelters were built to protect us from the weather, natural enemies and other dangers. Initially design and performance were managed by craftsmen who combined their expertise in both domains. More formal approaches to building

501: 74:. Furthermore, improving building performance (particularly energy efficiency) is important for addressing climate change, since buildings account for 30% of 83: 182:(International Energy Conservation Code) have been widely used to inform local building codes and energy-efficiency certification programs, such as 335: 351:

The role of simulation in performance based building. In: Hensen and Lamberts (eds), Building performance simulation for design and operation

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capacity (how much the building can do). The performance of a building depends on the response of the building to an external

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process. Categories of building performance are quality (how well the building fulfills its functions),

211: 91: 236: 129: 120: 75: 67: 241: 78:, resulting in 27% of global greenhouse gas emissions. Prominent building performance aspects are 71: 125: 79: 34:

that expresses how well that building carries out its functions. It may also relate to the

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system, electric lighting, hot water consumption, and home appliances, among others.

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There are several different building performance standards widely used for designing

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savings (how much of a particular resource is needed to fulfill its functions) and

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performance appeared in the 1970s and 1980s, with seminal works being the book on

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and energy-efficiency certifications. For instance, the standards produced by

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CIB Report 64 - Working with the Performance Approach in Building

514:- U.S. organization setting home performance technical standards 198:(which includes the windows, walls, roofs, and foundation), the 194:. Building performance standards include specifications on the 175: 425:"Phius 2021 Passive Building Standard Certification Guidebook" 529: 191: 319: 54:

or shock. Building performance plays an important role in

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Platform for discussion of theory on building performance

476:"DOE Zero Energy Ready Home (ZERH) Program Requirements" 532:- Building Performance Analysis book companion website 511: 452:"2021 IECC National Model Energy Code (Base Codes)" 502:ASHRAE - measuring commercial building performance 401:"What is Standard 189.1, and why does it matter?" 165: 537: 353:. Abingdon, Oxon: Spon Press. pp. 15–36. 334:: CS1 maint: numeric names: authors list ( 299:. London: Applied Science Publishers LTD. 378:. Hoboken / Chichester: Wiley Blackwell. 348: 373: 14: 538: 294: 398: 507:Global Buildings Performance Network 101: 320:CIB Working Commission W60 (1982). 24: 512:BPI Building Performance Institute 25: 562: 518:Building Performance Association 495: 405:Consulting - Specifying Engineer 271:"Buildings - Sectorial Overview" 106: 227:Environmental impact assessment 468: 444: 417: 392: 367: 342: 313: 288: 263: 166:Building performance standards 13: 1: 376:Building Performance Analysis 257: 160:Building Performance Analysis 97: 60:building services engineering 526:- Home performance articles. 524:Building Performance Journal 349:Augenbroe, Godfried (2011). 295:Markus; et al. (1972). 7: 205: 119:to comply with Knowledge's 10: 567: 212:Building energy simulation 374:de Wilde, Pieter (2018). 237:Sociology of architecture 76:global energy consumption 68:architectural engineering 242:Sustainable architecture 132:may contain suggestions. 117:may need to be rewritten 456:New Buildings Institute 72:construction management 30:is an attribute of a 546:Building engineering 399:Amara (2019-06-18). 297:Building Performance 152:Building Performance 28:Building performance 551:Energy conservation 64:building regulation 247:Sustainable design 88:indoor air quality 360:978-0-415-47414-6 217:Ecological design 196:building envelope 147: 146: 121:quality standards 80:energy efficiency 16:(Redirected from 558: 490: 489: 487: 486: 472: 466: 465: 463: 462: 448: 442: 441: 439: 438: 429: 421: 415: 414: 412: 411: 396: 390: 389: 371: 365: 364: 346: 340: 339: 333: 325: 317: 311: 310: 292: 286: 285: 283: 281: 267: 142: 139: 133: 110: 102: 84:occupant comfort 38:of the building 21: 18:Home performance 566: 565: 561: 560: 559: 557: 556: 555: 536: 535: 498: 493: 484: 482: 474: 473: 469: 460: 458: 450: 449: 445: 436: 434: 427: 423: 422: 418: 409: 407: 397: 393: 386: 372: 368: 361: 347: 343: 327: 326: 318: 314: 307: 293: 289: 279: 277: 269: 268: 264: 260: 208: 168: 143: 137: 134: 124: 111: 100: 23: 22: 15: 12: 11: 5: 564: 554: 553: 548: 534: 533: 527: 521: 515: 509: 504: 497: 496:External links 494: 492: 491: 467: 443: 416: 391: 384: 366: 359: 341: 312: 305: 287: 261: 259: 256: 255: 254: 252:Weatherization 249: 244: 239: 234: 232:Green retrofit 229: 224: 219: 214: 207: 204: 172:building codes 167: 164: 145: 144: 114: 112: 105: 99: 96: 9: 6: 4: 3: 2: 563: 552: 549: 547: 544: 543: 541: 531: 528: 525: 522: 519: 516: 513: 510: 508: 505: 503: 500: 499: 481: 477: 471: 457: 453: 447: 433: 426: 420: 406: 402: 395: 387: 385:9781119341925 381: 377: 370: 362: 356: 352: 345: 337: 331: 323: 316: 308: 302: 298: 291: 276: 272: 266: 262: 253: 250: 248: 245: 243: 240: 238: 235: 233: 230: 228: 225: 223: 220: 218: 215: 213: 210: 209: 203: 201: 197: 193: 189: 185: 184:Passive House 181: 177: 173: 163: 161: 157: 156:CIB Report 64 153: 141: 131: 127: 122: 118: 115:This article 113: 109: 104: 103: 95: 93: 89: 85: 81: 77: 73: 69: 65: 61: 57: 53: 49: 45: 41: 37: 33: 29: 19: 483:. Retrieved 479: 470: 459:. Retrieved 455: 446: 435:. Retrieved 431: 419: 408:. Retrieved 404: 394: 375: 369: 350: 344: 321: 315: 306:085334-542-2 296: 290: 278:. Retrieved 274: 265: 222:Energy audit 169: 159: 155: 151: 148: 138:October 2016 135: 126:You can help 116: 56:architecture 40:construction 27: 26: 188:Energy Star 92:daylighting 36:performance 540:Categories 485:2023-06-17 480:Energy.gov 461:2023-06-17 437:2023-06-17 410:2023-06-17 258:References 98:Background 330:cite book 130:talk page 206:See also 48:workload 44:resource 32:building 280:17 June 382: 357: 303: 190:, and 176:ASHRAE 128:. The 432:PHIUS 428:(PDF) 380:ISBN 355:ISBN 336:link 301:ISBN 282:2023 200:HVAC 192:LEED 180:IECC 154:and 90:and 70:and 52:load 275:IEA 542:: 478:. 454:. 430:. 403:. 332:}} 328:{{ 273:. 186:, 94:. 86:, 82:, 66:, 62:, 58:, 488:. 464:. 440:. 413:. 388:. 363:. 338:) 309:. 284:. 140:) 136:( 123:. 20:)

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