Spatial Duality of Livability in District 7 of Tehran

Authors

1 PhD student in Geography and Urban Planning, Kharazmi University, Tehran, Iran.

2 Associate Professor of Geography and Urban Planning, Kharazmi University, Tehran, Iran.

Abstract

Extended Abstract
Introduction
Urban population, urbanization growth, Reduce green spaces, High fossil fuel consumption, greenhouse gas emissions, and Use of inappropriate materials They have created a heat island over the cities That cause the city's air several degrees Celsius warmer surroundings.
Nowadays, science has proven that there has been a lot of climate change throughout the life of the planet Earth, and many indicators show that human intervention in nature is accelerating natural processes. Humans have been known to be involved in the occurrence of many natural disasters including global warming, sea-level rise, forest destruction, ozone depletion, acid rain, and biodiversity decline. Population growth, urbanization, green space decrease, fossil fuels overuse, greenhouse gas emission, and the use of inappropriate building materials have caused the emergence of thermal island microclimates over cities which make cities warmer than their vicinities (villages) by several centigrade degrees.
 
Methodology
This phenomenon is influenced by several factors such as city location, city size and population, urban density, urban geometry, thermal properties of urban surfaces, waterproof surfaces, human-caused heat and air pollution. Some of these factors require long-term urban planning, but others such as using appropriate building materials can be considered as an early yielding decrease strategy to mitigate the destructive effects of heat islands. Therefore, this paper, after identifying the factors affecting the creation of heat islands and introducing the decrease strategies, tries to examine parameters such as mean radiant temperature and air temperature in three high albedo (0.8), medium albedo (0.5) and low albedo (0.3). In this regard, by choosing Poonak street in Qazvin, which has a variety of building materials, and by studying through Envi_met simulation software.
 
Result and discussion
Materials used in urban environments absorb and accumulate solar and infrared rays and transmit them to the atmosphere, so materials play an important role in reducing the reception, storage of heat, and its transfer to the urban environment.
 The findings show that, it was concluded that changes in the amount of ambient radiant and temperature power can have a significant effect on the mean radiant temperature and consequently on outdoor thermal comfort. The results show that although cool materials with high albedo are suitable for roadbeds and roofs, but high albedo materials in the façade, due to their high reflectivity, bring lower thermal comfort and warmer environments in cities. In cities with heat islands, cool materials can warm the environment, but in cities with no heat islands, use of high albedo materials reduces indoor energy consumption in summer.
 
 
Conclusion
The results indicate that in order to reduce the mean radiant temperature (the most important factor of thermal comfort), direct and indirect radiant flux values must be controlled. Therefore, with the decrease in the amount of albedo in the facade materials, the radiant flux of the environment decreases leading to a simultaneous decrease in air temperature and the mean radiant temperature (Tmrt). Materials with albedo have the highest reflectivity, as a result of which the materials remain cold and heat is not transferred to the interior; however high albedo is not suitable for facade materials in cities that have a heat island, because it causes an increase in ambient temperature. The solution is to use materials with low albedo; thus, the ambient temperature does not increase and because the heat from the materials to the interior is not transferred. Use suitable thermal insulation in the wall so that the heat absorbed by the materials is not transferred to the interior.

Keywords

Main Subjects

References

  1. Ahadnejad Roshti, M., Sajjadi, J. & Yariqli, W. (2019) Analysis and Evaluation of Viability Indicators in Urban Areas Case Study: 23 Districts of Zanjan, Regional Planning Quarterly, Vol. 9, No. 34, pp. 148-131. [Persian].
  2. Babaei, A., Karkabadi, Z. & Kamyabi, S. (2020) Barriers to urban management in the viability of cities, Case study: Semnan city, Journal of Applied Research in Geographical Science, Vol. 20, No. 58, pp. 301-318. [Persian].
  3. Barzegar, S., Heydari, T. & Anbarloo, A. (2019) Analysis of informal settlements with a viable approach (Case study: Informal neighborhoods of Zanjan), Regional Planning Quarterly, Vol. 9, No. 33, pp. 152 – 137. [Persian].
  4. Bandar Abad, A. (2011) A livable city from basics to meanings, Azarakhsh Publications: Tehran. [Persian].
  5. Bandar Abad, A. & Ahmadinejad, A. (2014) Evaluation of quality of life indicators with emphasis on the principles of livable city in the 22nd district of Tehran, Journal of Urban Planning Research: Fifth Year, No. 16, pp. 74-55. [Persian].
  6. Nora Osama,A., Halafawy, E. & Mohamed Amin, A. (2019) A Critical Review of Urban Livability, European Journal of Sustainable Development: 8, 1, 165-182, ISSN: 2239-5938.
  7. Banzhaf, E., Kollai, H. & Kindler, A. (2018) Mapping urban grey and green structures for liveable cities using a 3D enhanced OBIA approach and vital statistics, Geocarto International, https://doi.org/10.1080/10106049.2018.1524514.
  8. Boon Wan, K. (2013) 10 principles for liveable high-density cities: lessons from Singapore, Urban Land Institute (ULI).
  9. Clayden, A. & Keith, M. (2006) Improving Residential Liveability in the UK: Home Zones and Alternative Approaches, Journal of Urban Design, Vol.11, No. 1, pp. 234- 256.
  10. Sasanpour, (2017) Livable City One Step Towards Sustainable  Development, Journal of Contemporary Urban Affairs, Vol. 1, No.3, pp. 13-17.
  11. Falah Manshawi, A. (2013) Recreation of urban spaces with event-oriented (and event life) approach in order to enhance the vitality and improve the quality of life of the case study of the north-south axis of Shiraz (Quran Gate to Shahcheragh), M.Sc. Thesis under the guidance of Dr Sholeh, University. [Persian].
  12. Honar Sadiqian, N. (2016) A Study of the Challenges of Urban Viability Development in Region One of Mashhad, M.Sc. Thesis in Geography and Urban Planning, under the guidance of Mohammad Ajza Shokouhi, Faculty of Literature and Humanities, Ferdowsi University of Mashhad. [Persian].
  13. Hatami Nejad, H., Masoud, M.j. & Heydari Akhavan, K. (2019) Spatial analysis of physical viability of Ahvaz metropolis, Physical Development Planning Quarterly, Vol.6, No. 13, pp. 23 - 11. [Persian].
  14. Heydari, T. (2016) Analysis of the viability of worn-out urban tissues (Case study: worn-out tissue of the central part of Zanjan), PhD thesis in Geography and Urban Planning, Faculty of Geographical Sciences, Kharazmi University, Tehran. [Persian].
  15. Khorasani, M.A. (2016) Reflections on the concept of viability; Cognition, Assessment and Approaches, Bi-Quarterly Journal of Research in Arts and Humanities, Vol. 1, No. 2, pp. 15- 9. [Persian].
  16. Khorasani, M.A. (2016) Comparative analysis and evaluation of the views of residents and local managers in relation to the viability of suburban villages in the city of Varamin, Quarterly Journal of Geography and Development, Vol. 11, No. 51, pp. 280-261. [Persian].
  17. Khorasani, M.A. & Rezvani, M.R. (2013) Recognition and analysis of the viability difference of suburban villages in Varamin city, Quarterly Journal of Space Economics and Rural Developmen, Vol. 2, No. 2, pp. 74-55. [Persian].
  18. Khalili, A. (2011) Textbook of Quantitative Methods of Urban and Regional Planning, Faculty of Architecture and Urban Planning, Tehran University of Arts, Iran. [Persian].
  19. Jafari Asadabadi, H. (2013) Study of urban viability for sustainable urban development (Case study of Tehran metropolis), Master Thesis under the guidance of Dr. Farzaneh Sasanpour, Faculty of Geography, Kharazmi University, Tehran. [Persian].
  20. Landry, C. (2000) Urban Vitality: A New source of Urban Competitiveness, Prince Claus fund journal, ARCHIS issue Urban Vitality / Urban Heroes.
  21. Oon Khar Ee, Ch. & Khoo, A . (2014) Issues and challenges of a liveable and creative city: the case of Penang, Malaysia. Geografia: Malaysian Journal of Society and Space, Vol. 10, No. 3, pp. 33-43.
  22. Tehran Municipality District 7 Internet Portal. (‌ 2019) Information of the retrieval area on 11/12/98 from: .tehran.ir7http: // region. [persian].
  23. Rezvani, M.R. & Ahmadi, A. (2009) The place and role of culture in the formation of spatial identity, Cultural Research Quarterly, Year 10, Vol. 3, No. 6, pp. 68-45. [persian].
  24. Statistics Center of Iran. (2016) Report on the final results of the general population and housing census. [persian].
  25. Sasanpour, F. Alizadeh, Sara; And Arab Moghaddam, nymph. (2016) Viability assessment of urban areas of Urmia with RALSPI model, Journal of Applied Research in Geographical Sciences: Year 18, No. 8, pp. 258 - 241. [persian].
  26. Sasanpour, F. (2017) A few unspoken words about the concept of viability, Abadi Magazine, Vol.20. No. 76-75, 87-72. [persian].
  27. Sasanpour, F. Afshar, H. & Shayan, B. (2017) Competitiveness analysis of the quality of life in Tehran metropolis at the global level, Geography Quarterly, Vol. 15 No. 55. pp. 23-42. [persian].
  28. Mohammadi Avandi, B. Rajabi, A. & Eghbali, N. (‌ 2019) Investigation of the relationship between social capital and sustainable development of Ahvaz neighborhoods Case study: Kianbars and Lashkarabad neighborhoods, Geography Quarterly, Vol. 15, No. 55, pp. 280-268. [persian].
  29. Naqipour, A. (2017) The meaning and concept of citizenship and its history, the first International Conference on Political Science and Islamic Education, Tehran. [persian].
  30. Majidi, H. & Bandar Abad, A. (2010) A Study of Global and Indigenous Criteria of a Living City, Journal of City Identity, Vol. 8, No. 17, pp. 76-65. [persian].
  31. Mohammadi, P. (2016) Investigation of the status of urban viability indicators in Shahrekord based on the position of urban management, Journal of Applied Research in Geographical Sciences, Vol. 20, No. 57, pp. 205 - 222. [persian].
  32. Mousavi, M.N., Zare, A., Manouchehri Miandoab, A. & Ahar, H. (2017) Analysis of the effects of scattered growth of urban surface on the viability of urban neighborhoods Case: Maragheh city, Journal of Urban Research and Planning, Vol, No. 31, pp. 18-1. [persian].
  33. Mahmoudi Azar, A., Hashempour R. & Marashi, Fawad; (2017) An Analysis of the Interaction of Objective and Mental Quality of Life Based on Access to Public Services in the Historical Context of Urmia, Journal of Applied Research in Geographical Sciences: Vol. 17, No. 45, pp. 225 - 207. [persian].
  34. Sasanpour, F. Movahed, A. & Latifi, O. (2017) Analysis of viability in metropolitan areas of Ahvaz, Journal of Urban Studies of Shahid Bahonar University of Kerman, Vol. 1, No. 1 in a row 10. [persian].
  35. Sasanpour, F., Tulaei, S. & Jafari Asadabadi, H. (2015) Measuring and evaluating urban viability in twenty-two areas of Tehran metropolis, Regional Planning Quarterly, Fifth Year, No. 18, pp. 42-27. [persian].
  36. Sasanpour, F., Tulaei, S. & Jafari Asadabadi, H. (2014) the viability of cities for sustainable urban development; Case Study: Tehran Metropolis, Geography Quarterly, Vol. 11, 42, pp. 129-134. [persian].
  37. Shamai, A. Mostafa Pour, L. & Yousefi Fashki, M. (2015) Spatial analysis of vulnerability of urban neighborhoods with a passive defense approach in Piranshahr, Journal of Spatial Analysis of Environmental Hazards: Second Year, Vol. 1, 3, pp. 118 - 105. [persian].
  38. Shamai, A., Dolatabad World, R. & Jahani Dolatabad, I.. (2013) Assessing the identity of a neighborhood with emphasis on the role of popular institutions in District 7 of Tehran, Journal of Applied Research in Geographical Sciences, 13, No. 21, pp. 191-210. [persian].
  39. Southworth, M. (2016) Learning to make liveable cities, Journal of Urban Design, Vol. 11, 42, https://doi.org/10.1080/13574809.2016.1220152.
  40. Van Vliet, W. (2009) Creating livable cities for all ages: Intergenerational strategies and initiatives.
  41. Wong, A. (2018) Sustainable development (urban transport and mobility) - “sharpening the saw’’ in shaping liveable cities towards quality of life experiences, 10th Malaysian Road Conference & Exhibition 2018, IOP Publishing.
  42. Zanella, A. & Camanho, A. (2015) The assessment of cities’ livability integrating human wellbeing and environmental impact. Ann. Oper. Res, 226, 695–726.
  43. Zbardast, E., Khalili, A. & Dehghani, M. (2013) Application of factor analysis method in identifying worn urban textures, Journal of Fine Arts, Architecture and Urban Planning: Vol.18, No. 2, pp. 42 - 27. [persian].
  44. Zand, A. Nazarian, Z. (2016) Spatial analysis of changes in the population density pattern of modernization measures in the metropolis of Tehran (1375-90), Geography Quarterly, Vol. 15, No. 53, pp. 2-8. [persian].
  45. Wardzi, H., Mohammadi, J. & Mousavi Noor, A. (2018) Evaluation and analysis of biodegradability components of
Geography
Volume 19, Issue 71
Winter 2022, pp 1-190.
March 2022
Pages 43-61

Files

Share

How to cite

Statistics