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Manuscript ID : JEST-1612-3250 (R1) Visit : 203 Page: 121 - 141

10.30495/jest.2021.23368.3250

Article Type: Original Research

Design and Implementation an Ubiquitous GIS in Order to Energy Waste Management of Residential Buildings (Case Study: Shahriar -Shahedshahr)

Subject Areas : GIS

Rasoul Mohammadi 1 * , Abolghasem Sadeghi Niaraki 2 , Shahram baikpour 3

1 - M.Sc., Remote Sensing and GIS, Islamic Azad University, Science and Research Branch, Tehran, Iran, Faculty of Natural Science and Environmen, *(Corresponding Author)
2 - Assistant Prof., GIS Department, Faculty of Geodesy &Geomatics Engineering, K.N. Toosi University of Technology.
3 - Head of Medical Geology Research Center, Science and Reserch Branch, Islamic Azad University, Tehran, Iran

Received: 2016-12-25 Accepted : 2017-02-01 Published : 2021-06-22

Keywords: Energy West Management, Residential Building, Ubiquitous GIS, Sensors,

Abstract :

Background and Objective: Limited energy resources and the need to save on its consumption make energy optimization in the building sector necessary. In this regard, due to the lack of appropriate methods of design and development of new technologies to measure the energy loss of the building is of particular importance. The purpose of this study is to investigate the energy dissipation of residential buildings by designing and using a practical example based on a comprehensive spatial information system.Method: A number of sample housing units with almost identical geometric and physical conditions were considered. In order to investigate the energy dissipation, an extensive energy management system was designed and developed, which includes the LM35 heat sensor, GPS sensor, and GSM board. The stages of this research include conceptual design of energy management system, data collection, information processing and preparation of waste maps in GIS environment. Software developed in mobile and computer environments was also used to display thermal information.Findings: To obtain the amount of energy dissipation of the windows of the studied buildings, kave heat transfer coefficient was applied to the measured data and the amount of energy dissipation of each section was calculated. The measurement results showed that the kitchens of the studied residential buildings with the values ​​of 1.406 had the highest amount of loss.Discussion and Conclusion: The results showed that most of the buildings under study are not optimal in terms of energy standards and energy resources are wasted from them. Also, one of the main sources of energy loss in residential buildings is windows, which have a low efficiency for energy conservation. 

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_||_

  1. Asgharyan Najaf abadi, S., and Ghasemzadeh h., 2016. Prioritization of waste disposal methods using Analytical Hierarchy Process. Journal of Environmental Science and Technology, 18 (3): 407-414. (In Persian)
    2.
  2. Mostafa Mirabadi, M., and Abdi, H., 2017. Landfill locate in Bukan by Boolean logic and Analytical Hierarchy Process (AHP). Journal of Environmental Science and Technology, 19 (1): 149 – 168. (In Persian)
    3.
  3. PourAhmad, A., Habibi, K., Zahrabi, M., Adli, N. S., 2007. Using fuzzy algorithms and GIS for selection of urban equipment location case study: Babolsar. Journal of Environmental Studies, 33(42): 31-42. (In Persian)
    4.
  4. Entezari, S., Jashni, A., Bidokhti, N. T., 2012. Locating urban landfill in Marvdasht using GIS and Hierarchical Analysis. 6th National Congress on Waste Management, Mashhad, Iran. (In Persian)
    5.
  5. Amiri, M. J., Nikzad, W., Moarab, Y., Foroughi, N., 2015. Landfill sites site selection using fuzzy logic in GIS and Fuzzy Analytic Hierarchical Model (FAHP) (case study: Minoodasht city). Journal of Environmental Studies, 16(1):485-501. (In Persian)
    6.
  6. Heydarzadeh N., 2003. Criteria for locating municipal solid waste landfill. Publications of the Municipalities of Iran, 45 p. (In Persian)
    7.
  7. Saaty T.L., 1997. That is not the analytic hierarchy process: What the AHP is and what it is not. Journal of Multi-Criteria Decision Analysis 6 (6), PP.324-335.
    8.
  8. Kyanfard, F., Lashkaripour, G., Hafezi, Moghaddas, N., 2013. Selection of municipal solid waste landfill site using GIS and Hierarchical case study: Ramhormoz city. 7th Geological National Coference of of Payame Noor University. (In Persian)
    9.
  9. Rahmat, Z. G., Vosoughi Niri M., Alavi N., Goudarzi G., Babaei A. A., Baboli Z. and Hosseinzadeh M., 2016. Landfill site selection using GIS and AHP: a case study: Behbahan, Iran. Journal of Civil Engineering, DOI 10.1007/s12205-016-0296-9.
    10.
  10. Hejazi, S. A., 2015. Urban Landfill site selection by using spatial Information techniques and Hierarchical Analysis: A Case Study of Maragheh. Journal of Geography and Planning, 19 (54): 105-125. (In Persian)
    11.
  11. Guler D. and Yomralıoglu T., 2017. Alternative suitable landfill site selection using analytic hierarchy process and geographic information systems: a case study in Istanbul. Environmental Earth Science, 76:678, DOI 10.1007/s12665-017-7039-1
    12.
  12. Eskandari1 M., Homaee M., Falamaki A., 2016. Landfill site selection for municipal solid wastes in mountainous areas with landslide susceptibility. Environmental Sci Pollut Res, DOI 10.1007/s11356-016-6459-x
    13.
  13. Maguiri A. E., Kissi B., Idrissi L., Souabi, S., 2016. Landfill site selection using GIS, remote sensing and multicriteria decision analysis: case of the city of Mohammedia, Morocco. Bulletin of Engineering Geology and the Environment, DOI 10.1007/s10064-016-0889-z.
    14.
  14. Guiqin W., Li Q., Guoxue L., Lijun C., 2009. Landfill site selection using spatial information technologies and AHP: A case study in Beijing, China. Journal of Environmental Management 90, PP.2414–2421.
    15.
  15. Babalola A. and Busu I., 2011. Selection of landfill sites for solid waste treatment in damaturu town-using GIS Techniques. Journal of Environmental Protection, 2, PP. 1-10.
    16.
  16. Balasooriya B., Vithanage M., Nawarathna N. J., Kawamoto K., Zhang M., Herath G., 2014. Solid waste disposal site selection for Kandy district, Sri Lanka Integrating GIS and Risk Assessment. International Journal of Scientific and Research, 4 (10).
    17.
  17. Chabuk A., Al-Ansari N., Hussain H. M., Knutsson S., Pusch R., 2016. Landfill site selection using geographic information system and analytical hierarchy process: A case study Al-Hillah Qadhaa, Babylon, Iraq. Waste Management & Research, DOI: 10.1177/0734242X16633778.
    18.
  18. Momeni, M., Mobaraki, A., Jenabi, N., 2013. Land planning and spatial development management case study: Malekan county, Journal of Urban Management Studies, 5(13):46-56. (In Persian)
    19.
  19. Eskandari, R., 2011. Site selection and assessment of environmental impacts of dangerous waste landfills in central Iran, MSc. Thesis, University of Shahrood. (In Persian)
    20.
  20. Sener b., 2004. Landfill site selection by using geographic information system. Mcs, thesis, School of natural and applied science of Middle East technical.
    21.
  21. Management and Planning Organization of Iran, 2001. Design, implementation, maintenance and operation of sanitary landfills for municipal waste, Vice-Chancellor for Research, Science and Publications. (In Persian)
    22.




 

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