CESBP Central European Symposium on Building Physics / BauSIM 2016.
Dresden, Germany, September 14 - 16, 2016. E-Book of Proceedings.
Zusammenfassung
Modern energy concepts of settlements and neighborhoods with an increasing share of renewable, decentralized energy supply will be the future. Buildings are on their way of transformation from energy consumers to active energy suppliers. The planning of optimized but increasingly complex building energy systems can be facilitated and realized through the use of simulation-based planning tools.
The CESBP 2016 and BauSIM 2016 are hosted under a common organizational roof in order to promote the networking of research groups from very different fields. Through their complementary contents and thematic orientation both conferences offer participants many opportunities to open up new fields of knowledge. The conference program of the CESBP 2016 integrates in addition to the classic building physical applications and new developments a strong focus ranging from energy-efficient construction up to plus-energy concepts for settlements and neighborhoods. The complementary program of the BauSIM 2016 addresses diverse technologies of application and further development of modern simulation-based planning tools with a special focus on building energy systems and services on the one hand, but also with respect to the more general areas of construction research.
Abstract
Modern energy concepts of settlements and neighborhoods with an increasing share of renewable, decentralized energy supply will be the future. Buildings are on their way of transformation from energy consumers to active energy suppliers. The planning of optimized but increasingly complex building energy systems can be facilitated and realized through the use of simulation-based planning tools.
The CESBP 2016 and BauSIM 2016 are hosted under a common organizational roof in order to promote the networking of research groups from very different fields. Through their complementary contents and thematic orientation both conferences offer participants many opportunities to open up new fields of knowledge. The conference program of the CESBP 2016 integrates in addition to the classic building physical applications and new developments a strong focus ranging from energy-efficient construction up to plus-energy concepts for settlements and neighborhoods. The complementary program of the BauSIM 2016 addresses diverse technologies of application and further development of modern simulation-based planning tools with a special focus on building energy systems and services on the one hand, but also with respect to the more general areas of construction research.
Schlagworte
Bauphysik/Bauchemie Allgemein Bauphysik Energieeffizientes Bauen Quartiersplanung Simulation Simulationsverfahren Modellierung Lebenszyklus Nummerisches Verfahren Konfferenz Architekten Ingenieure Wissenschaft Bauindustrie Bauphysiker Universitäten Hochschulen- Kapitel Ausklappen | EinklappenSeiten
- 3–10 A-02-3 3–10
- 11–18 A-03-1 11–18
- 19–20 A-03-3 19–20
- 23–712 Conference Papers 23–712
- 23–28 B-01-1 23–28
- 29–36 B-01-2 29–36
- 37–44 B-01-3 37–44
- 45–52 B-02-1 45–52
- 53–60 B-02-2 53–60
- 61–66 B-02-3 61–66
- 67–74 B-03-1 67–74
- 75–82 B-03-2 75–82
- 83–90 B-03-3 83–90
- 91–98 B-04-1 91–98
- 99–104 B-04-2 99–104
- 105–110 B-04-3 105–110
- 111–116 B-05-1 111–116
- 117–124 B-05-2 117–124
- 125–132 B-05-3 125–132
- 133–140 B-06-1 133–140
- 141–148 B-06-2 141–148
- 149–156 B-06-3 149–156
- 157–164 B-07-1 157–164
- 165–170 B-07-2 165–170
- 171–178 B-07-3 171–178
- 179–182 B-08-1 179–182
- 183–190 C-01-1 183–190
- 191–196 C-01-2 191–196
- 197–204 C-01-3 197–204
- 205–212 C-02-1 205–212
- 213–220 C-02-2 213–220
- 221–226 C-02-3 221–226
- 227–234 C-03-1 227–234
- 235–242 C-03-2 235–242
- 243–250 C-03-3 243–250
- 251–258 C-04-1 251–258
- 259–266 C-04-2 259–266
- 267–276 C-04-3 267–276
- 277–284 C-05-1 277–284
- 285–292 C-05-2 285–292
- 293–300 C-05-3 293–300
- 301–308 C-06-1 301–308
- 309–314 C-06-2 309–314
- 315–322 C-06-3 315–322
- 323–328 C-07-1 323–328
- 329–336 C-07-2 329–336
- 337–344 C-07-3 337–344
- 345–352 C-08-1 345–352
- 353–360 C-08-2 353–360
- 361–368 D-01-1 361–368
- 369–376 D-01-2 369–376
- 377–382 D-01-3 377–382
- 383–390 D-02-1 383–390
- 391–396 D-02-2 391–396
- 397–404 D-02-3 397–404
- 405–412 D-03-1 405–412
- 413–420 D-03-2 413–420
- 421–428 D-03-3 421–428
- 429–434 D-04-1 429–434
- 435–440 D-04-2 435–440
- 441–448 D-04-3 441–448
- 449–456 D-05-1 449–456
- 457–464 D-05-2 457–464
- 465–472 D-05-3 465–472
- 473–480 D-06-1 473–480
- 481–488 D-06-2 481–488
- 489–496 D-06-3 489–496
- 497–504 D-07-1 497–504
- 505–512 D-07-2 505–512
- 513–520 D-07-3 513–520
- 521–526 D-08-1 521–526
- 527–534 D-08-2 527–534
- 535–542 E-01-1 535–542
- 543–550 E-01-2 543–550
- 551–558 E-01-3 551–558
- 559–564 E-02-1 559–564
- 565–572 E-02-2 565–572
- 573–580 E-02-3 573–580
- 581–588 E-03-1 581–588
- 589–596 E-03-2 589–596
- 597–604 E-03-3 597–604
- 605–612 E-04-1 605–612
- 613–620 E-04-2 613–620
- 621–628 E-04-3 621–628
- 629–636 E-05-1 629–636
- 637–644 E-05-2 637–644
- 645–652 E-05-3 645–652
- 653–660 E-06-1 653–660
- 661–668 E-06-2 661–668
- 669–676 E-06-3 669–676
- 677–682 E-07-1 677–682
- 683–690 E-07-2 683–690
- 691–696 E-07-3 691–696
- 697–704 E-08-1 697–704
- 705–712 E-08-2 705–712
- 715–872 Posters 715–872
- 715–722 P-01-1 715–722
- 723–730 P-01-2 723–730
- 731–738 P-01-3 731–738
- 739–744 P-01-4 739–744
- 745–750 P-01-5 745–750
- 751–758 P-02-1 751–758
- 759–766 P-02-2 759–766
- 767–774 P-02-3 767–774
- 775–780 P-02-4 775–780
- 781–786 P-02-5 781–786
- 787–794 P-03-1 787–794
- 795–802 P-03-2 795–802
- 803–810 P-03-3 803–810
- 811–818 P-03-4 811–818
- 819–826 P-03-5 819–826
- 827–834 P-04-1 827–834
- 835–842 P-04-2 835–842
- 843–850 P-04-3 843–850
- 851–858 P-05-1 851–858
- 859–864 P-05-2 859–864
- 865–872 P-05-4 865–872
19 Treffer gefunden
- „... thermo-regulatory system of the human body that describes its physiological processes, a comfort model that ...” „... transient thermal response of a building model. The objective of this study was to utilise the physiology ...” „... al. 2001) and others. It describes the physiological processes through a complex set of equations ...”
- „... sensitivities. A building quarter modelled in the district model EmMi-transient is used as case study and its ...” „... the dynamic influence of parameters on the results of the model EmMi-transient. In previous works ...” „... influenced by this PC. This process can be quite complex as it is necessary to look at the progress of the ...”
- „... ). Thermal conductivity λ is measured using the transient hot-strip technique (to avoid evaporation effects ...” „... transient response of both sensors is different: RH variations measured by the sensor S2 are strongly ...” „... observe that the temperature effect is influenced by the local transient thermal behavior: a maximal ...”
- „... moisture transport phenomenon changing moisture transfer process and the simulations performed usually ...” „... flow equations with the mass and energy balances. Transient, one-dimensional models for combined heat ...” „... transient hygrothermal behaviour of multi-layer building components exposed to natural climate conditions ...”
- „... simulations became an integral part of most engineering design processes when the hygrothermal performance ...” „... effort and the ability to produce satisfactory results. Evolutionary algorithms follow the processes ...” „... of vectors of real numbers. The particular candidate solutions appear in the iteration process as ...”
- „... thus in the same range while preserving a flexible yet easy modeling process (i.e. physical as well as ...” „... provide main heat amount at required temperature levels during transient and summer time. One major ...” „... temperature level. Solar collector directly supplies heat to heating grid during summer and partly transient ...”
- „... importance in the process of data acquisition, model generation and dynamic simulation provides little ...” „... further benefits while adding a lot of effort and essentially slowing down the process. To make it even ...” „... an entire building stock and require less detail. We distinguish in our process three different ...”
- „... . However, Shahidzadeh-Bonn et al. (2008) showed that the process and location of salt crystallization ...” „... COOH (1) Furthermore, oven drying is replaced by freeze drying. This process comprises removal of ...” „... described process, the mass density of gypsum crystals in kg/m3 is easily calculated. Results are ...”
- „... able to generate annual transient data with low computational power. The results are compared with ...” „... , especially in the early phase of a building design process. In some cases, the widely used building ...” „... only stationary simulation experiments or transient analysis over some minutes or hours can be ...”
- „... Processes B-04-1 Degradation of the wall paintings of Hagia Sophia in Istanbul ...” „... and transport properties ....................... 301 C-06-2 Numerical simulation of drying process in ...” „... ....................... 383 D-02-2 eeBIM Lab – Towards a coherent green building design process ...”
- „... coupled heat- and mass transfer processes. In this paper a modeling approach for adiabatic absorber ...” „... the regeneration process to times, where enough heat energy is available. The amount of stored ...” „... low-exergetic energy sources and will be demonstrated in air conditioning processes and industrial drying ...”
- „... sorption process they were weighed every two/five days. The whole experiment took approximately 1.5 month ...” „... use of which depends both on process conditions and kind of material (Kielcew 1980). A character of ...” „... variability of coefficient for cement mortar can also be a result of specificity of processes occurring in ...”
- „... . The entire process becomes available through the open source software framework emerged from the IEA ...” „... . Outcomes from this nonstandardised subjective process can widely vary from person to person, even given ...” „... facilitate a more accurate and efficient analysis process. One of the key obstacles for the integration of ...”
- „... convective and radiative processes within the intersti- Figure 4: Control points for comparison of surface ...” „... was any air infiltration between interior, interstitial, and exterior space assumed. Such processes ...” „... continuous monitoring of installed vacuum glazing in historical casement windows; Transient thermal ...”
- „... . METHODOLOGY Similar projects follow mainly Transient System Simulation Tool (TRNSYS) based modeling ...” „... TRNSYS with Dymola and allows data and value transfer during the simulation process between the two ...”
- „... wurden dessen transiente thermische Verhältnisse und dessen Speicherfähigkeiten unter Berücksichtigung ...” „... building and the physical processes inside it; the model covers the major energy consumption processes ...”
- „... constant drying process within the cavity for a certain period. An extra advantage of buoyancy driven ...” „... , March the 5th, to minimize transient phenomena to some extent. The climate data of February 27th ...”
- „... ongoing process towards harmonized open-source tools for powerful and interconnected BPS on various ...” „... . German Association of Engineers 2012. VDI guideline 6007-1: Calculation of transient thermal response ...”
- „... simulation error, formulated as an objective function, e.g. mean squared error. The process of finding the ...” „... 1 to the upper equation makes the problem transient. The lower equation defines the boundary ...”