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
24 Treffer gefunden
- „... index. Secondly, though WDR load in 1983 (515 mma-1) is close to the other two years, its distribution ...” „... climatic index, a combination of wind-driven rain load and potential evaporation, is developed to ...” „... load. The drying index (DI) represents the annual evaporation potential. It is defined as sum of the ...”
- „... handle latent cooling loads. To estimate the potential of the distribution network and of liquid ...” „... ADIABATIC ABSORBER MODEL FOR THE LIQUID DESICCANT DISTRIBUTION NETWORK AT THE TECHNOLOGY PARK ...” „... , Berlin, Germany ABSTRACT A liquid desiccant distribution network is planned to be installed ...”
- „... discomfort to the residents particularly in summer and increase the cooling load. Therefore, recently ...” „... dynamics (CFD) analysis method has been used to understand the air flow distribution in various types of ...” „... results Pattern 1 Figure 4 shows the airflow distribution for Pattern 1. As shown in Fig. 4, airflow ...”
- „... , HVAC equipment and distribution networks to enable integrated analyses of energy systems on the ...” „... , HVAC equipment and distribution networks to enable integrated analyses of energy systems on the ...” „... distribution and transmission of heat like pumps, pipes, valves and radiators. For ventilation and air ...”
- „... Mechanical agents Gravity Snow loads, rainwater loads Forces and imposed or restrained deformations ...” „... hygrothermal loads. (Hannawi and Prince-Agbodjan, 2015) cycle present a similar maximum exterior surface ...” „... reached temperatures in the hygrothermal simulation, with Lisbon climate, were used as temperature load ...”
- „... biggest need is to increase to determine the energy distribution of various sources. As often said “what ...” „... is not measured can not be managed” . The recent problem is to evaluate the distribution of ...” „... building stock. The distribution of costs in buildings depends on many factors – e.g. in hotels and spas ...”
- „... by mainly one centralized heat generator (HG), a distribution grid and decentralized heat consumers ...” „... full load. See Figure 3 for a graphical explanation. This controller type is characterized by a ...” „... is caused by two effects: the overlaying effect and the full load control of the HGs. Therefore the ...”
- „... distribution grids and integral control strategies of heat conversion systems. We tackle the challenge of ...” „... materials, zoning standards, area and distribution of wall surfaces and internal gains to define a ...” „... combine this standard with occupancy and load profiles defined in the Swiss Bulletin SIA 2024 (Swiss ...”
- „... distribution resemblance were selected. First Scenario The base case scenario underestimated the wind speed ...” „... field analysis 616 RESULTS Measurement Results Cumulative distributions of measured wind speed values ...” „... Distributions of measured wind speed values for UCL and PL locations Evaluation of the wind speed results ...”
- „... very detailed analysis and results (e.g. local air temperature distribution and air velocity fields ...” „... cooling load tremendously. Nevertheless, this results in unrealistic temperature stratification as also ...” „... deactivated for maintenance for about a week. The maintenance week and the base load of the cooling season ...”
- „... by distribution and storage. The higher the PER-factor, the higher the required resources and ...” „... different electricity demand load profiles. PER-weighting factors were determined for locations worldwide ...” „... conditions and for different regionally expected load profiles. Examples of such profiles for different ...”
- „... from the study. Figure 2: Distribution of buildings by usage and age Data processing In order ...” „... components are assumed to be multivariate Gaussian distributions. Determining the most suitable number of ...” „... , although associated with some additional computational load, result in more realistic overall demand ...”
- „... well as short and longwave radiation loads. Furthermore exposures like mountains or near waters ...” „... like microbial growth or driving rain load. However, often such local climate data are hardly ...” „... station is analyzed and split into the mentioned categories. Figure 2 shows the area distribution for ...”
- „... 22.7 Window 22.9 - Door 22.9 - Supply 18.9 99 Extract - 99 In order to add the internal loads ...” „... did not change significantly (Figure 9). Figure 10 illustrates the cumulative distribution of the ...” „... ). Figure 12 shows the cumulative distribution of the temperature relative errors. In this case, 70% of the ...”
- „... approaches such as De Carli et al. (2014) determining loads and sources of LTDHN in TRNSYS in combination ...” „... irradiation. The domestic hot water (DHW) demand profile is calculated from the reference load profiles ...” „... increase of the average storage temperature and is, to a small extent, lost during distribution due to ...”
- „... demand distribution can be dissolved with the dependent interior temperatures (blue squares ...” „... duration profile is calculated using a standardized load profile (SLP) scaled to the yearly consumption ...” „... dependency is not included in the thermal building model. Figure 10 shows the distribution of the specific ...”
- „... architectural design, energy analysis, HVAC design, quantity take off and cost estimation, thermal load ...” „... Systems – heating, lighting, ventilation and air conditioning system. Internal Loads – Schedules for ...” „... export functionality. The first step in the process of MVD production is to load a baseline file that ...”
- „... allows for equal pressure distribution at the envelope and thus provides consistency for enhanced ...” „... factors that enable this to happen are service distribution and stair allocation, which can be ...” „... can significantly decrease the overall system load while increasing comfort and security in ...”
- „... calculated. One technical reason may be unavoidable heat losses of the heat distribution system, which ...” „... well as the impact of heat distribution losses on every single room and the whole building. The paper ...” „... shows simulation results of standard heat distribution circuits with four pipes and modern concepts ...”
- „... a stateof-the art tool to estimate temperature distribution and energy consumption of buildings. As ...” „... thermal heat balance, heat sources from inside and outside (metabolic heat production, solar load ...” „... load onto body parts and air speed at the body parts are not yet taken into account. In the future ...”
- „... , 2004). To simplify the simulation leap years are removed. METHODOLOGY The cumulative distribution ...” „... load during winter than the climate model according to EN 15026. The masonry wall and the green roof ...” „... three, the distribution of the driving rain is highly varying between the North and the Baltic Sea ...”
- „... energy performance certificate calculation methods, as frequency distribution of the calculated heating ...” „... and Mahdavi (2004) have shown, this relative compactness can be used as indicator for heating loads ...” „... : Fitness distribution of results when using relative compactness as fitness function. Figure 10 ...”
- „... pertaining to occupancy, plug loads, use of lights, and operation of heating system into the calibrated ...” „... distribution of free-floating temperatures obtained from stochastic models Ao, Bo, and Co, non-stochastic ...” „... models D and F, as well as benchmark and pseudo-models G and H. Figure 3: Cumulative distribution of ...”
- „... load profiles ................................................. 377 D-02: Interoperability, Building ...” „... .................................................................................................................................. 653 E-06-2 Adiabatic absorber model for the liquid desiccant distribution network at the technology ...”