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91	Energieffektiviserande åtgärder för befintlig kontorsfastighet på Umestans företagspark : Energy-efficiency measures for existing office building at Umestans Business Park Persson, Erica January 2016 (has links) The work was conducted in the spring of 2016 on behalf of the ÅF Industry in Umeå. This project aimed to provide proposals on energy-saving measures for house 2 at Umestans Business Park based on the total specific purchased energy for 2015. Also for the 3rd floor in the same house suggestions on energy-saving measures were given. This was done with regard to the expected electricity use during 2016. Finally, an investigation on the possibility to classify the floors using of business-electricity was done.Initially was a literature study of today's classification system for buildings done. The focus was to see whether there is a possibility or not to classify leased office space. Both Swedish and international classification systems have been evaluated during the project.All the systems in the building were investigated and the total specific energy could be mapped. All the systems in the building were investigated and the total specific energy could be mapped. Based on the results of the operational-electricity that were emerged during the mapping of house 2, and based on the values of the electricity meter 83353 the business-electricity for floor 3 could be determined. Also for this area a mapping was made to see which areas the business-electricity went to.The results of the mapping of the building showed that the average energy consumption for the total specific purchased energy was 141,1 kWh/m2 per year. Of these districts heating stands for 63%. Of the total share of district heating 81% went to the radiators, this suggests that the building has large transmission losses. The inventory shows that the building's has a low use of electricity. This indicates that the technical systems were well installed with well-adapted operating times. The energy-saving measures that were found to reduce the building's losses were in the areas of windows, ventilation and solar shading. Energy-saving measures for the energy supplied were found in pumps, cooling and lighting.The result of floor 3 shows that the average use of business-electricity is at 36,36 kWh / m2 per year. Of these, 50% goes to lighting.From the results floor 3 could be classified to a Class B using the report "Energy performance of buildings - Energy Classification". To achieve a better classification requires change in the lightning on floor 3 as well as an analysis of any thinkable behavior change among the employees. / Examensarbetet utfördes under våren 2016 på uppdrag av ÅF Industry i Umeå. Detta projekt syftade till att ge förslag på energibesparande åtgärder för hus 2 vid Umestans företagspark baserat på den totalt specifikt köpta energin för år 2015. Även för våningsplan 3 i samma hus gavs förslag på energibesparande åtgärder. Detta skedde med avseende på den verksamhetsel som beräknas användas under år 2016. Slutligen utreddes möjligheten till att klassa våningsplanets användning av verksamhetsel.Inledningsvis utfördes en litteraturstudie på dagens klassningssystem för byggnader där fokus låg på att se till huruvida det finns en möjlighet att klassa hyrda kontorslokaler. Både Svenska och internationella klassningssystem har utvärderats under projektet.Sedan inventerades byggnadens samtliga system och den total specifik köpta energin kunde kartläggas. Utifrån de resultat för verksamhetsel som framkom under kartläggningen av hus 2 samt utifrån värden på elmätare 83353 kunde verksamhetselen för våningsplan 3 fastställas. Även för detta område gjordes en kartläggning för att se till vilka områden våningsplanets verksamhetsel gick.Resultatet för kartläggningen av byggnaden visade att den genomsnittliga energianvändningen för den totalt specifikt köpta energin var 141,1 kWh/m2,år. Av dessa utgjordes 63 % fjärrvärme. Av den totala andelen fjärrvärmen gick 81 % till radiatorerna, detta tyder på att byggnaden har stora transmissionsförluster. Den inventerade byggnadens låga användning av el visade på väl installerade tekniska system med väl anpassade drifttider. De energibesparande åtgärder som återfanns för att minska byggnadens förluster låg i områdena fönster, ventilation och solavskärmning. För den tillförda energin var det områdena pumpar, kyla och belysning som energibesparande åtgärder återfanns.Resultatet för våningsplan 3 visar att den genomsnittliga användningen av verksamhetsel ligger på 36,36 kWh/m2, år. Av dessa går 50 % till våningsplanets belysning.Ur resultatet kunde våningsplan 3 klassas till en klass B med hjälp av rapporten ”Byggnaders energiprestanda – Energiklassning”. För att nå en bättre klassning krävs åtgärder för våningsplanets belysning samt en analys av eventuella beteendeförändringar hos de anställda. / <p>roek0001</p> Energikartläggning kontorsbyggnad kontor åtgärdsförslag energiklassningssystem STIL Energiklassning av byggnader Lågenergihus Miljöklassad byggnad P-märkt innemiljö EU Green Buildning BREEAM LEED Green building Ventilation kyla belysning
92	SIMULERING AV SPECIFIK ENERGIANVÄNDNING FÖR ETT FIKTIVT ATTEFALLSHUS : En undersökning om ett generellt Attefallshus kan klara det nu gällande BBR-kravet för småhus Netzell, Pontus January 2016 (has links) Energy efficiency in the building sector is crucial for many countries in succeeding with the completion of goals regarding energy efficiency. This study has investigated if there are any possible and reasonable solutions for Attefallshus in Sweden to meet the demands of the National Board of Housing regarding energy performance in houses. By building a model and calculating the annual energy usage for a specific Attefallshus, through simulations with the software IDA ICE and general input, an energy audit has been obtained. By comparing the specific energy usage for the studied case with the requirement the conclusion that it is possible for this small building to achieve a low enough energy usage to meet the demand. Solar cells are the key to accomplish the target of a low specific energy usage and by combining this with an effective system for heating it possible to get under the limit. The usage of domestic hot water is a very large part of the building specific energy usage and alone almost reaches the set bounds which is why it is of great importance to carefully design systems and to regain heat with effective ventilation. A large part of the energy usage in Attefallshus is related to the user why awareness and careful usage of energy is a significant factor in reaching a low specific energy usage. energy efficiency energy audit specific energy usage IDA ICE solar cells small houses heating ventilation domestic hot water energieffektivisering energikartläggning energiprestanda IDA ICE solceller småhus uppvärmning ventilation tappvarmvatten
93	Energikartläggning av Försäkringskassans lokaler : rekommendationer för ett fortsatt energieffektiviseringsarbete Ollman, Erik January 2013 (has links) With new energy directives in place, the Swedish Social Service (SSS) stands before the challenge how to reduce the energy demand in its locales. It is a complex matter, as the locales are rented from various property owners and it becomes a question of how to reduce the operational electricity and influence the property owners to work more with energy efficiency. This thesis takes a balanced research approach in three parts. Firstly a qualitative part in form of interviews with personnel at the SSS and its property owners, secondly a quantitative part of descriptive nature in form of energy statistics and thirdly a literature review of Energy Management (EM) Supply Chain Management(SCM), Green Supply Chain Management(GSCM) and Enviromental Performance Indicators (EPI). This in order to be able to give normative recommendations of how the SSS should act to reduce its energy consumption in its locales and provide new insights on how EM, SCM, GSCM and EPI can be applied in effect. The results show that the Swedish Social Service should act in the following areas to control its energy efficiency: statistics and follow-up, locale strategy and operational electricity. To get efficient statistical material the SSS should update their registers of property owners, update guidelines for energy statistics reporting and continue with the same collection method for data (e-mail survey) to get continuity. The literature review and interviews show that a segmentation of suppliers (property owners) based on factors like area in property, good relations, area of local and energy performance indicators should be useful as to know how to distribute resources to enable energy efficiency. Finally, the study shows that various locales has high rates of idling loads and have a energy saving potential of 10-15%. Energy efficency Energy mapping Locales Energy management Enviromental Management Supply Chain Management Green Supply Chain Management Enviromental Management Performance Indicators Energikartläggning Energieffektivisering Nyckeltal Leverantörskedjehantering Grön leverantörskedjehantering Energimanagement Miljömanagement
94	Energikartläggning av ett bostadshus från 2016 / Energy mapping of a dwelling house from 2016 El-Homsi, Patric, Fredrik, Bramstedt January 2018 (has links) Byggnaden i undersökningen stod färdig i oktober 2016 och är belägen på Kvarnvägen 31 i Gemla. Syftet är att kartlägga energianvändningen och fastställa huruvida installation av solfångare är gynnsam. Målet är att kartlägga energiåtgången, redovisa förbättringsåtgärder och analysera de tekniska installationerna. Undersökningens metoder bestod av studiebesök, platsbesök, ritningsstudie och en okulärbesiktning med värmekamera. För att kartlägga och identifiera energiåtgången har modulering av klimatskal och installationer gjorts i VIP-Energy. Resultatet av energikartläggningen blev samma som den projekterade. Framtagen energideklaration gav byggnaden energiklass B. Att ha solfångare installerad visade sig vara teoretiskt energi- och kostnadseffektiv om de är kopplade enligt förslag. Det befintliga ventilationssystemet i byggnaden är teoretiskt fördelaktig för både avrostning och föruppvärmning. Förbättringsförslagen är att justera solfångarvinklen samt att koppla om värmetillförseln som erhålls av solfångarna. / The building in this survey was completed in October 2016 and is located at Kvarnvägen 31 in Gemla. The purpose of the study is to map the energy consumption and determine whether the installation of solar collectors is beneficial or not. The goal is to map the energy use in the building, report improvement measures and analyse the technical installations. The qualitative methods consisted of a study visit, site visits, review of drawings and an ocular survey of the building with a thermal camera. In order to calculate and analyse the building´s energy use, modelling of the building envelope components and technical installations were performed in VIP-Energy. The results of the energy survey shows that the calculated energy use for the building is similar to the projected energy use and the energy declaration places the building in energy class B. Many factors are of significant importance in optimizing solar collectors such as inclination angle, orientation and installation type. Having solar collectors installed proved to be beneficial both in terms of energy and cost if they are connected as proposed. HSB FTX is theoretically advantageous for both preheating of supply air and defrosting of the building's ventilation system. The enhancement proposals are to adjust the inclination angle of the solar collectors and to reconnect the heat input obtained from the solar collectors. Geothermal heating Energy mapping Borehole Energy efficiency FTX HYSS Solar collectors Bergvärme Energikartläggning Energibrunnar Energieffektivisering FTX HYSS Solfångare Other Civil Engineering Annan samhällsbyggnadsteknik
95	Energikartläggning av två skolor i Västerås : Undersökning av möjligheter till effektivare energianvändning på Rönnbyskolan och Rönnby förskola Eklund, Malin, Habib, Mariana January 2017 (has links) Rönnbyskolan and Rönnby förskola is a school area situated in the city of Västerås, Sweden that consist of a total of five buildings. The main buildings are built in 1973 which makes their energy use of interest. Due to the individual goals for Sweden to lower its energy use by 2020, the city of Västerås has begun an energy efficiency process to reduce energy use in potential buildings. In this degree project, a survey of the buildings’ energy consumption has been reviewed and possible energy reduction methods have been presented. This was made by studying the surveys of the buildings ventilation systems, the heating systems, the envelope and the buildings application by taking measurements. The results from the measurements have been studied and confirmed with the literature study and suggestions of energy effective solutions are presented based on energy calculations. Based on the results, four different technological installations and four building engineering actions have been evaluated. The calculations were supplemented with a model built and simulated in the simulation tool IDA ICE. Economical aspects were taken into account, which shows the connection between energy savings and economic profit. Due to high investment costs, only a few actions were cost effective. The result of the study showed that the buildings can reduce their energy consumption by 17 % or 34 kWh/ m2, year using the measures that turned out profitable. Energy audit Energi efficiency Energy balance Retrofitting School 1970s building IDA ICE Energikartläggning Energieffektivisering Energibalans Skola Byggnad från 1970-talet IÍDA ICE Energy Systems Energisystem
96	Energianalys av byggnad med installerat ångsystem för matlagningsprocesser : Kan ånga vara mer effektivt än el för matlagning? Bodell, Erik, Åhlander, Simon January 2017 (has links) Det finns ett stort behov av att minska energianvändningen i världen. Igenom att minska energibehovet så minskar den negativa miljöpåverkan. I en ständigt växande värld där det byggs i allt snabbare takt så ökar också energibehovet. Igenom att effektivisera befintliga byggnader kan energibehovet stagnera eller till och med minska trots utbyggnaden. Igenom att energieffektivisera så kan mer av den energi som används nyttjas istället för att den ska stå för onödiga förluster. Fortifikationsverket har en restaurangbyggnad de anser använder för mycket energi. Denna byggnad innehåller en restaurang som använder ett ångsystem för matproduktion, vilket gör byggnadens energisystem unikt. För att kunna minska byggnadens energianvändning kartläggs och analyseras den i denna rapport. Denna fallstudie genomförs med en litteraturstudie för att utveckla kunskaperna inom området. Sedan utförs mätningar i byggnaden som därefter analyseras och presenteras så att eventuella avvikelser och brister påpekas. Under arbetets gång upptäcktes att en säkring var felinstallerad för mätningen av elanvändningen till en av ångpannorna. Igenom att ha åtgärdat detta för att kunna fakturera rätt så spar Fortifikationsverket nästan 170 000 kr per år som den ångpannan går. Utöver detta så analyserades ångsystemet och uppskattningar gjordes för att kunna svara på om ånga är effektivare än el för matlagning. Det visar sig att ångsystemet kan vara effektivt om stor mängd mat tillagas. Med hänsyn till nätter, helger och de dagar då mindre mat tillagas så är el-utrustning effektivare eftersom att det helt stängs av när det inte används. Till skillnad från ångsystemet som måste täcka upp för förlusterna för att behålla temperatur och tryck, även när systemet inte används. Igenom att byta ut ångsystemet till motsvarande utrustning som drivs av el skulle det gå att spara 205 MWh/år, enligt uppskattningar. Ångsystemet står för 35% av byggnadens totala elanvändning och är den största posten för energianvändningen och är därför den del som fokuserats mest på. Utöver ångsystemet så analyserades övrig energianvändning för att kunna ge förslag på besparingar. Många av förslagen är grundade på vissa uppskattningar och antaganden vilket måste beaktas. Några konkreta exempel på besparingar som kan göras är att sänka inomhustemperaturen för att spara 50 MWh/år, installera tilläggsfönster för att spara upp till 140 MWh/år, installera effektivare kylaggregat – 200 MWh/år, installera bättre styrning till ventilationen – 110 MWh/år, installera bättre styrning till belysning – 40 MWh/år. / There is a great need to reduce energy use in the world. By reducing energy demand, this reduces the negative environmental impact. In a constantly growing world, where it is built at an ever faster pace, the energy demand also increases. By increasing energy efficiency inexisting buildings, energy requirements may stagnate or even decrease despite expansion. By increasing energy efficiency, more of the energy demand can be used instead of standing for energy losses. Fortifikationsverket has a building they believe use too much energy. This building contains a restaurant that uses a steam system to heat its food, which makes the building's energy system unique. In order to reduce the energy consumption of the building, an energy audit is completed and analyzed in this report. This case study is conducted with a literature study to develop the knowledge in the field. Then measurements in the building are performed which are subsequently analyzed and presented to indicate any deviations and deficiencies. During the work it was discovered that a fuse was incorrectly installed to measure the electricity consumption of one of the boilers. By correcting this in order to be able to bill correctly, Fortifikationsverket saves almost 170,000 SEK per year as the boiler goes. In addition to this, the steam system was analyzed and estimates were made to respond if steam is more effective than electricity for cooking. It turns out that the steam system can be effective if a large amount of food is cooked. Considering nights, weekends and days when less food is cooked, electrical equipment is more effective because it completely turns off when not in use. Unlike the steam system that has to cover the energy losses to keep temperature and pressure, even when the system is not in use. By replacing the steam system with equivalent electrical equipment, it couldsave 205 MWh/year, according to estimates.The steam system accounts for 35% of the building's total electricity demandand is the largest item for energy use and is therefore the most focused area. In addition to the steam system, other energy usage was analyzed to provide energy savings. Many of the proposals are based on certain estimates and assumptions which must be considered. Some examples of savings that can be made is lowering the indoor temperature to save 50 MWh/year, install additional windows to save up to 140 MWh/year, install more efficient cooling units -200 MWh/year, install better ventilation control systems-50 MWh/year, install better controls for indoor lighting -40 MWh/year. energy survey energy analysis energy efficienc y energy steam system steam boiler ventilation building automation energikartläggning energianalys energieffektivisering energi ångsystem ångpanna ventilation byggnadsautomation Energy Systems Energisystem
97	Energikartläggning av Gårda 19:12 Nestorson, Linus January 2017 (has links) År 2014 trädde lagen om energikartläggning i stora företag, även känd som EKL, i kraft och sedan dess har energikartläggningarna tagit god fart. Med lagen om energikartläggning i större företag har drömmen om en utsläppsneutral framtid kommit ett steg närmare relisering. Denna rapport är ett av många steg som krävs för att göra världen till en mer sund och framtidssäker plats att leva på. Energikartläggningar ämnar att skapa en uppfattning om fastigheters energianvändning och dess potential till förbättringar. Denna energikartläggning behandlar Gårda 19:12, en kontorsfastighet i Göteborg där kommunalt ägda förvaltningsbolaget Higab står som förvaltare. Energikartläggningen behandlar energin ämnad åt fastighetsdrift då det är detta som Higab råder över. Verksamhetsdrift behandlas endast kort utan noggrannare analyser då det inte är av beställares intresse. Fokus ligger på stödprocesser som verksamheten i fastigheten inte råder över. Mätningar har genomförts vid upprepade besök och inventeringar i fastigheten och nödvändiga beräkningar har genomförts baserat på insamlad information och standardiserad brukarindata. Simuleringsprogrammet IDA ICE har använts för att simulera nyttan av åtgärdsförslag presenterade i slutet av kartläggningsrapporten. Energikartläggningen av fastighetens energianvändning baseras på faktiska mätningar och systemanalyser baserat på tillhandahållen information av fastighetsförvaltare. Analyserad fastighet är från 1987 och har sedan tidigare ett lågt energibehov och klarar redan idag under en mild vinter kraven för nybyggnation. Energibärare in till fastigheten är fjärrvärme och el. Inkommande energi kommer i rapporten redovisas under användningsområde. Med energikartläggningen har fastighetsdriften kartlagts till att stå för 77,6 % av totalt använd energi uppdelat på belysning, lokalvärme, lokalkyla, ventilation, tappvarmvatten och användning av hissar. Energianvändning uppdelat på dessa användningsområden kommer att presenteras i rapporten samt systemens uppbyggnad och användning inom fastigheten. Fokus i energikartläggningen ligger i att indentifiera och analysera energianvändarna i fastigheten och kommer att mynna ut i ett antal åtgärdsförslag av olika storlek i investering och energibesparing. Beräkningar och mätningar visar att den specifika energianvändningen för fastighetsdrift är 47,5 kWh/m2Atemp. Fastigheten är bra optimerad i många energianvändningsområden. Energikartläggningen gör det tydligt att belysning står för en betydande del av energianvändningen på knappt 19 % av total fastighetsenergi. Av denna anledning riktas tre av åtta åtgärdsförslag åt syftet att sänka byggnadens energianvändning inom belysning. Resterande åtgärdsförlag är inom områdena ventilation, installation av solceller och tappvarmvatten. / As a result of the EU energy efficency directive, in 2014 the government decided about the law of energy audit in big companies. Since then, the speed of which companies does energy audits have greatly increased. This is a major step towards an energy neutral society. In 2014, the law on energy audits for large companies came into force and since then, energy audits have taken a good pace. With EKL, the dream of a emission-neutral future has come one step closer to realization. This report is one of many steps required to make the world a more healthy and future-proof place to live in for the current and future generations. The work with energy audits aims to provide an idea of the energy use of real estate and its potential for improvement. This energy audit deals with Gårda 19:12, an office property in Gothenburg, where municipal-owned company Higab stands as property manager. The energy audit deals with the energy intended for maintaining property functions, as this is what Higab can control. It does not cover business operations completely, but is covered briefly without more accurate analyzes as it is not of the client's interest. The focus is on support processes. The IDA ICE simulation program has been used to simulate the benefits of action proposals. The energy mapping of the property's energy use is based on actual measurements and system analyzes, measured or provided by property manager. The property was built in 1987 and has a low energy requirement as it is, and does during mild winters already meet the requirement for new constructions. Energy carriers to the property are district heating and electricity and will be divided into their application area in the report. With this energy audit, energy used for maintaining property functions has been surveyed to account for 77.6% of total energy usage, consumed by lighting, heating, cooling, ventilation, hot water and the use of lifts. The focus of the energy audit lies in identifying and analyzing energy users in the property and will result in several measures of varied sizes in investment and energy saving. Calculations and measurements show that the specific energy use for real estate operations is 47.5 kWh/m2 compared to 58.93 kWh/m2, which was the total energy use in 2016. The property is well optimized in many energy applications. After completion of the survey, lighting accounts for a significant part of energy use of more than 18 % of total property energy. For this reason, three of eight measures are aimed at reducing the building's energy use in lighting. Remaining measures covers ventilation, installation of solar panels (for electricity) and tap water. energy audit energi efficency Gothenburg IDA ICE office energikartläggning EKL energieffektivisering Göteborg IDA ICE energianvändning energibalans kontorsfastighet Engineering and Technology Teknik och teknologier
98	Identifiering av energianvändningen hos en kontorsfastighet i en svensk tätort : - en fallstudie med beräkningsinslag Karlsson Falk, Susanne January 2017 (has links) The current climate changes require a global response immediately. Every year the use of energy increases, which means that more and more greenhouse gases are released. Which in turn helps accelerate global warming. To reduce the energy use will not be an easy task for mankind. Household and service accounts for about 40% of Sweden’s energy use, and office buildings prove to be among the most energyintensive. Previous research shows that heat-, ventilation- and cooling systems along with lightning are the systems that provide the highest energy consumption and that there is also a great savings potential. In this study, the energy use of a property in a Swedish urban area has been investigated and how the energy is being used by the different systems has been identified. The purpose of this research is to see which measures can give the greatest cost-effective savings. Method used is a case study, which was an energy survey, combined with a literature review of relevant information. Data collection consisted of information from the property owner,inspection of the building and electricity measurements. The result shows that there are great savings to be made. If proposed measures are implemented (see section 4.6), energy consumption for heating can be reduced by 144,9 MWh/year or 32,4%. Energy used by lightning can be reduced by 46,8 MWh/year or 40,3%and other measures can be reduced by 41 MWh/year or 53%. Measures that can be performed for free were considered the most cost-effective, such as lowering the indoor temperature or turning off equipment between days. For measures with investment cost, isolation of the attic was considered most cost -effective with a payoff time of 5 years. To invest in sun cells would reduce the bought electricity with 56,8 MWh/yr. Due to lack of information, assumptions and simplifications were made that could have caused sources of error. energy survey office building energy savings potential energy efficiency heating ventilation lighting cost-effective energikartläggning kontorsbyggnad energibesparingspotential energieffektivisering värme ventilation belysning kostnadseffektivt Energy Systems Energisystem
99	Energikartläggning och driftoptimering genom behovsstyrning i befintlig fastighet / Energy audit and operational optimization through demand control in existing building Karlsson, Joakim January 2014 (has links) Energy supply in Sweden year 2011 amounted to 577 TWh. The final energy consumption for industrial, residential and service was 379 TWh. Sweden has energy policy goals to reduce energy use in buildings. One of these goals is to reduce the energy use by 20 % in 2020 compared to the year 1995. An important step to achieve this goal is to target energy efficiency measures in existing buildings. There are also financial incentives to implement energy efficiency measures due to the fact that the cost of energy represents 30-40% of a buildings maintenance costs. In general, up to 20 % of the energy consumption can be reduced without major reconstruction. In this master thesis project presented here, an energy audit was performed and energy efficiency measures was proposed for an existing building located at Järfälla, Stockholm. The property belongs to SAAB - Defence and Security. They have an internal target to reduce energy use in their buildings with 50 % by 2015 compared to 2009. The work of this master thesis project was limited to a building locally termed hus A. This part of the property is the oldest and was built in 1968, but has expanded gradually to the year 1977. Hus A contains of offices, a production hall, laboratories and storage areas. The energy audit showed that the electricity use is far greater in hus A, compared to the an average office and administration building. This is mainly due to production processes. A breakdown of the highest electricity consumers are: Industrial processes – 61.9 kWh/m2/year Lighting – 35.7 kWh/m2/year Fans – 33.2 kWh/m2/year Refrigeration – 21.8 kWh/m2/year Compressed air – 18.9 kWh/m2/year Computer units – 7.8 kWh/m2/year Frequency converters – 4.4 kWh/m2/year Waste heat from industrial processes, primarily from the production hall leads to high cooling demand to maintain good thermal comfort. Limitations in operation control of the buildings HVAC (Heating, Cooling and Air-conditioning) systems causes high heating and cooling demand and hence the buildings thermal mass is not properly utilized. Energy saving measures was mainly focused on increasing the controlling capability of HVAC systems. By implementing the energy efficiency measures presented in this master thesis report, building thermal mass will be more efficiently utilized. In addition, end use of electricity, heat and cooling will be reduced. In total, seven energy-saving measures proposed. One measure is implemented to prevent heating and cooling at the same time. A brief description of the energy efficiency measures and the expected result is found below. Adjust set point for TAFA301 Energy saving: 94.0 MWh/yearPayback time: 0 year Establish time schedule for compressed air systemEnergy saving: 110.8 MWh/yearPayback time: 2.5 months Demand controlled temperature set point to heating systemEnergy saving: 167.0 MWh/yearPayback time: 3.5 months Demand control of airflow in the production hallEnergy saving: 155,5 MWh/yearPayback time: 2 years and 10 months Establish time schedule for frequency invertersEnergy saving: 104.0 MWh/yearPayback time: 3 years and 2 months Radiator thermostats to the first part of the production hall Energy saving: 6.5 MWh/yearPayback time: 5 years and 2 months Demand control of airflow in conference roomsEnergy saving: 11.0 MWh/yearPayback time: 12 years and 2 months energy audit operational optimization demand control energy efficiency existing building energy-saving measures energikartläggning driftoptimering behovsstyrning energieffektivisering befintlig byggnad energibesparande åtgärder Energy Engineering Energiteknik
100	Energikartläggning och energieffektivisering av flerbostadshus : Utredning av möjliga energibesparande åtgärdsplaner i området Oxhagen, Örebro. Gunnarsson, John, Wallberg, Ida January 2022 (has links) The purpose of this report is to investigate how Örebrobostäder (ÖBO) can decrease their energy use in the residential area of Oxhagen. Oxhagen is as mentioned a residential area located west from Örebro center and have about 690 apartments in different sizes. ÖBO needs to do this survey because they obey from the law of energy mapping in large companies, this law is produced from the EU directive, energy efficiency directive with its purpose to reduce the energy using in the country so the imported energy decreases. Energy statistics have been handed from ÖBO, this energy data has been analyzed and the data have been put in respective calculations, using Excel. Also, a model of a real estate has been made in the simulation program IDA ICE, in this simulation program energy calculations are made. There has also been a technical inspection of the reference real estate. The result shows that the biggest decrease in energy will happen with a decrease in the heating of the building. It also shows that a change of windows can reduce energy use significantly. Therefor the conclusion is that a combination of heat decrease, and window change can make an enormous difference in energy using for the reference real estate and the combination can also apply on other real estate in the area Oxhagen. Energy Energy efficiency Energy mapping IDA ICE Thermal bridges Ventilation Energy using Energi Energikartläggning Energieffektivisering IDA ICE Köldbryggor Ventilation Energianvändning Energy Systems Energisystem

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