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  • 1.
    Asnafi, Nader
    Örebro University, School of Science and Technology.
    Proceedings of the International Conference on Mechanical, Electric and Industrial Engineering (MEIE2018)2018Conference proceedings (editor) (Refereed)
  • 2. Grothérus, Dag
    et al.
    Larsson, Tord
    Örebro University, Department of Technology.
    Ventilation i medelstora och större pannhus2005Report (Other academic)
    Abstract [sv]

    Utformning av pannhus kan sammanfattas enligt nedan:

    - Luftflöde som tillförs pannhuset skall klara av att tillföra erforderlig förbränningsluft samt att kyla pannhuset.

    - Pannhusetventilationen skall utföras som mekanisk ventilation och luften bör tillföras på flera olika nivåer.

    Arbetsmiljögsstiftningen anger cirka 45 oC som högsta lokaltemperatur. Undertrycket i pannhusets nedre del bör inte vara med än 40 Pa för att personalen på ett enkelt sätt skall kunna öppna dörrar vid utrymning.

  • 3.
    Hatko, Reinhard
    et al.
    Unversity of Würzburg.
    Klügl, Franziska
    Örebro University, School of Science and Technology.
    A distributed simulation engine for a time-driven multi-agent simulation2008In: Summer computer simulation conference (SCSC), ADS track, San Diego: SCS Publishing House , 2008, p. 38-45Conference paper (Refereed)
  • 4.
    Kabanshi, Alan
    et al.
    Högskolan Dalarna, Falun, Sweden.
    Sattari, Amir
    Högskolan Dalarna, Byggteknik, Falun, Sweden.
    Linden, Elisabet
    Högskolan Dalarna, Falun, Sweden.
    Wigö, Hans
    Högskolan Dalarna, Falun, Sweden.
    Sandberg, Mats
    Högskolan Dalarna, Falun, Sweden.
    Experimental study on contaminant entrainment in air distribution systems with free jets2017Conference paper (Refereed)
    Download full text (pdf)
    FULLTEXT01
  • 5.
    Morfeldt, Johannes
    Örebro University, School of Science and Technology.
    Optically Selective Surfaces in low concentrating PV/T systems2009Independent thesis Advanced level (degree of Master (One Year)), 20 credits / 30 HE creditsStudent thesis
    Abstract [en]

    One of the traditional approaches to reduce costs of solar energy is to use inexpensive reflectors to focus the light onto highly efficient solar cells. Several research projects have resulted in designs, where the excess heat is used as solar thermal energy.

    Unlike a solar thermal system, which has a selective surface to reduce the radiant heat loss, a CPV/T (Concentrating PhotoVoltaic/Thermal) system uses a receiver covered with solar cells with high thermal emittance.

    This project analyzes whether the heat loss from the receiver can be reduced by covering parts of the receiver surface, not already covered with solar cells, with an optically selective coating. Comparing different methods of applying such a coating and the long-term stability of low cost alternatives are also part of the objectives of this project.

    To calculate the heat loss reductions of the optically selective surface coating a mathematical model was developed, which takes the thermal emittances and the solar absorptances of the different surfaces into account. Furthermore, a full-size experiment was constructed to verify the theoretical predictions.

    The coating results in a heat loss reduction of approximately 20 % in such a CPV/T system and one of the companies involved in the study is already changing their design to make use of the results.

    Download full text (pdf)
    FULLTEXT
    Download (pdf)
    APPENDIX-B
    Download (pdf)
    APPENDIX-C
    Download (pdf)
    APPENDIX-D
  • 6.
    Nilsson, Charlotte
    et al.
    Örebro University, School of Science and Technology. Fortum Waste Solutions AB, Kumla, Sweden.
    Sjöberg, Viktor
    Örebro University, School of Science and Technology.
    Grandin, Anna
    Örebro University, Örebro, Sweden.
    Karlsson, Stefan
    Örebro University, School of Science and Technology.
    Allard, B.
    Örebro University, School of Science and Technology.
    von Kronhelm, Thomas
    Fortum Waste Solutions AB, Kumla, Sweden.
    Phosphorus speciation in sewage sludge from three municipal wastewater treatment plants in Sweden and their ashes after incineration2022In: Waste Management & Research, ISSN 0734-242X, E-ISSN 1096-3669, Vol. 40, no 8, p. 1267-1276, article id 734242X211065231Article in journal (Refereed)
    Abstract [en]

    Given the high efficiency in phosphorus removal at municipal wastewater treatment plants (MMWWTP), sewage sludge constitutes a promising resource for phosphorus (P) recovery. Sewage sludge is, however, a complex matrix and its direct use as fertiliser is limited by its content of metals/metalloids and organic pollutants. In order to increase its usability as a potential resource of P, there is a need for increased knowledge on phosphorus speciation in these matrices. The sludge composition is highly influenced by local conditions (i.e. wastewater composition and treatment method), and it is therefore important to study sludge from several MMWWTPs. In this study, three different protocols for sequential extraction were utilised to investigate the chemical speciation of phosphorus in sludge from three different MMWWTP sludges in Sweden, as well as in corresponding ashes following incineration. The results showed that the total amounts of phosphorus ranged from 26 to 32 mg g-1 sludge (dry weight), of which 79-94% was inorganically bound (IP). In the sludge, 21-30% of the IP was associated with calcium (Ca-P), which is the preferred species for fertiliser production. Following incineration, this fraction increased to 54-56%, mainly due to transformation of iron-associated phosphorus (Fe-P), while aluminium-associated species of phosphorus (Al-P) remained unaltered. The results from this study confirm that incineration is a suitable treatment for sewage sludge in terms of potential phosphorus recovery.

  • 7.
    Sattari, Amir
    Örebro University, School of Science and Technology.
    A Comparison of Energy Calculations for a Single-Family Detached Home with Two Energy Simulation Methods2020In: International Journal of Urban and Civil Engineering, E-ISSN 1307-6892, Vol. 14, no 5, p. 150-154Article in journal (Refereed)
    Abstract [en]

    For newly produced houses and energy renovations, an energy calculation needs to be conducted. This is done to verify whether the energy consumption criteria of the house -to reach the energy targets by 2020 and 2050- are in-line with the norms. The main purpose of this study is to confirm whether easy to use energy calculation software or hand calculations used by small companies or individuals give logical results compared to advanced energy simulation program used by researchers or bigger companies. There are different methods for calculating energy consumption. In this paper, two energy calculation programs are used and the relation of energy consumption with solar radiation is compared. A hand calculation is also done to validate whether the hand calculations are still reasonable. The two computer programs which have been used are TMF Energi (the easy energy calculation variant used by small companies or individuals) and IDA ICE - Indoor Climate and Energy (the advanced energy simulation program used by researchers or larger companies). The calculations are done for a standard house from the Swedish house supplier Fiskarhedenvillan. The method is based on having the same conditions and inputs in the different calculation forms so that the results can be compared and verified. The house has been faced differently to see how the orientation affects energy consumption in different methods. The results for the simulations are close to each other and the hand calculation differs from the computer programs by only 5%. Even if solar factors differ due to the orientation of the house, energy calculation results from different computer programs and even hand calculation methods are in line with each other.

  • 8.
    Sattari, Amir
    et al.
    National Iranian Oil Company, Tehran, Iran.
    Jalali, Omid
    Analysis of Fuel Oil Usage in Brick Industries of Iran and its Environmental Effects2006Conference paper (Other academic)
  • 9.
    Sattari, Amir
    et al.
    National Iranian Oil Company, Tehran, Iran.
    Roomizadeh, Ehsan
    Goodarzi, Mansour
    Short-Term, Long-Term and Mid-Term Energy Conservation Measures for Brick Production Lines2006Conference paper (Other academic)
  • 10.
    Sattari, Amir
    et al.
    National Iranian Oil Company, Tehran, Iran.
    Shakeri, Omid
    Analysis and Comparison of Energy Consumption of Different Types of Brick Production Kilns2004Conference paper (Other academic)
  • 11.
    Sattari, Amir
    et al.
    National Iranian Oil Company, Tehran, Iran.
    Shakeri, Omid
    Energy Conservation in Poultries2004Conference paper (Other academic)
1 - 11 of 11
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