<p>The aim of this master thesis project is to make an energy survey for a group</p><p>of apartments and suggestions to change the heating system from electricity to a more</p><p>efficient one. There are in total 73 flats in 21 buildings. All flats are separated in several</p><p>houses from two to five flats in one building. There are two different kinds of flats. One</p><p>with three rooms in one floor, in the following referred to as ‘flat A’ and the other one</p><p>with four rooms in two floors, in the following referred to as ‘flat B’. [1]</p><p>In the area there are also two buildings for the commonalty. In these buildings there are a</p><p>shelter and several common rooms like a storage and a laundry. In our work these two</p><p>buildings are not included because they are used by everyone inside the community and</p><p>we could not obtain exact values for the used electricity and the water consumption. So</p><p>our work is specialised only on the residential houses.</p><p>The first part of this thesis contains the energy balance for the different kinds of flats to</p><p>see how much energy they consume for heating and hot tap water. To get theses values</p><p>we have to analyse the total energy flow into one flat and compare it with the energy</p><p>which is used because of transmission losses, ventilation losses, hot tap water, electricity</p><p>for the household and natural ventilation and infiltration.</p><p>The total energy consumption for flat A is about 19000 kWh per year and in flat B about</p><p>23200 kWh per year. But the electricity which is used and has to be bought is about</p><p>15600 kWh per year in flat A flat and 17600 kWh in flat B. The rest of the energy is from</p><p>so called free heat caused by solar radiation and internal heat generation. [1]</p><p>These numbers for the electricity need in one year create annual costs of about</p><p>20000 SEK in flat A and 22500 SEK in flat B. To reduce these costs it is necessary to</p><p>know where this energy goes and for what it is used.</p><p>The important parts of the energy balance for this thesis are the transmission losses, the</p><p>losses caused by natural ventilation and infiltration and the used energy for hot tap water.</p><p>The losses caused by mechanical ventilation have also a significant value, but they would</p><p>only affect the new heating system if the ventilation system would be connected to the</p><p>new system. And the electricity used in the household for electrical devices can only be</p><p>changed by the consumer himself. The part which is affecting the energy costs for the</p><p>transmission and natural ventilation losses and the hot tap water sums up to 9240 kWh per</p><p>year in flat A and flat B. This causes costs of about 10000 SEK per year.</p><p>To reduce these costs it is necessary to change the actual heating system. In the following</p><p>we analyse the saving potentials with a change to an air-water heat pump or with a</p><p>connection to the local district heating network.</p><p>The costs which can be saved with the installation of a heat pump sum up to about</p><p>7000 SEK per year. The installation costs are about 100000 SEK to 125000 SEK</p><p>depending on the different proposed models. If you consider that the existing electrical</p><p>boiler has to be changed anyway in the next years the investment costs for the</p><p>combination with a heat pump decreases. The payback time is then between 9½ and</p><p>13½ years. With assumed increasing electricity prices of 5 % each year the payback time</p><p>decreases to 8½ to 11 years.</p><p>With a connection of each flat to the local district heating network the energy costs for</p><p>heating and hot tap water decreases to 3200 SEK per year. Although the price per kWh for</p><p>district heating is much lower than for electricity the costs are not decreasing a lot</p><p>because of a high annual fixed fee of 7100 SEK. The saved money per year sums up to</p><p>300 SEK and 1000 SEK depending on the electricity contract. The payback time for this</p><p>alternative is between 50 and up to 160 years.</p><p>An alternative to the exchange of the heating and hot water system is to change the actual</p><p>heat exchanger of the ventilation system. With this measure the energy consumption can</p><p>be reduced with less investment costs. The investment costs for a new heat exchanger are</p><p>about 35000 SEK, including a new exhaust hood from the kitchen outwards to reduce the</p><p>contamination of the filters in the heat exchanger. [1]</p><p>The payback time ranges from 13 years in flat A to 21 years in flat B.</p>
| Identifer | oai:union.ndltd.org:UPSALLA/oai:DiVA.org:hig-761 |
| Date | January 2008 |
| Creators | Schumm, Robert, Maier, Christoph |
| Publisher | University of Gävle, Department of Technology and Built Environment, University of Gävle, Department of Technology and Built Environment |
| Source Sets | DiVA Archive at Upsalla University |
| Language | English |
| Detected Language | English |
| Type | Student thesis, text |
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