planning:non-residential_passive_house_buildings:passive_house_retail
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planning:non-residential_passive_house_buildings:passive_house_retail [2018/04/23 15:17] – [Thermal protection] kdreimane | planning:non-residential_passive_house_buildings:passive_house_retail [2018/04/23 15:19] – [Thermal protection] kdreimane | ||
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==== Thermal protection ==== | ==== Thermal protection ==== | ||
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Like other efficiency measures, thermal protection has played a rather subordinate role in retail stores up till now (see e.g. Figure 4). Not only is it disregarded but sometimes it is even viewed critically: in buildings with sufficiently high internal heating loads, the issue arises whether a good level of thermal protection would be productive all at all, or whether it would be better to deliberately induce the maximum possible transmission losses in order to reduce the cooling demand. \\ | Like other efficiency measures, thermal protection has played a rather subordinate role in retail stores up till now (see e.g. Figure 4). Not only is it disregarded but sometimes it is even viewed critically: in buildings with sufficiently high internal heating loads, the issue arises whether a good level of thermal protection would be productive all at all, or whether it would be better to deliberately induce the maximum possible transmission losses in order to reduce the cooling demand. \\ | ||
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In actual fact, further improvement of the thermal protection is pointless and will lead to an increased cooling demand, at the latest when the internal heat gains meet the maximum heating demand (Figure 5). \\ | In actual fact, further improvement of the thermal protection is pointless and will lead to an increased cooling demand, at the latest when the internal heat gains meet the maximum heating demand (Figure 5). \\ | ||
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An x-axis value of 0 shows the level of insulation required according to the German EnEV standard. The cooling demand is greater with higher internal loads, more insulation will then be contraproductive. Figure 7 demonstrates that additional natural ventilation in summer can solve this problem.}}] | An x-axis value of 0 shows the level of insulation required according to the German EnEV standard. The cooling demand is greater with higher internal loads, more insulation will then be contraproductive. Figure 7 demonstrates that additional natural ventilation in summer can solve this problem.}}] | ||
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Since internal heat gains are a decisive influencing parameter for the concept of the structural envelope, these will be examined in more detail here. Figure 6 illustrates how great the fluctuations in the heat gains can be in retail stores. \\ | Since internal heat gains are a decisive influencing parameter for the concept of the structural envelope, these will be examined in more detail here. Figure 6 illustrates how great the fluctuations in the heat gains can be in retail stores. \\ | ||
Four full-range retail store variants are shown on the left. The variant " | Four full-range retail store variants are shown on the left. The variant " | ||
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With the standard equipment commonly used nowadays, consisting of roll-down night covers in front of the refrigerated shelves and lighting using T8 lamps with an installed output of 10 W/m², the electricity consumption is just 260 kWh/(m²a), and heat withdrawal is already significantly less. Heat flows can be controlled even more easily if the best technology available today is used with moderate levels of illuminance, | With the standard equipment commonly used nowadays, consisting of roll-down night covers in front of the refrigerated shelves and lighting using T8 lamps with an installed output of 10 W/m², the electricity consumption is just 260 kWh/(m²a), and heat withdrawal is already significantly less. Heat flows can be controlled even more easily if the best technology available today is used with moderate levels of illuminance, |
planning/non-residential_passive_house_buildings/passive_house_retail.txt · Last modified: 2018/04/23 15:20 by kdreimane