Journal of Urban Studies on Space and Place

Theoretical Foundations of Nature-Friendly Place-Making: Capacity Assessment of Green Project Management Methods in Sustainable Environmental Interventions

Document Type : Original Article

Authors

Hadi Farhangdoust 1
Toktam Hanaee 2

1 Master of Islamic Architecture, Faculty of Islamic Art and Architecture, Imam Reza International University, Mashhad, Iran

2 PhD, Associate Professor, Urban Planning, Department of Urban Planning, Faculty of Art and Architecture, Islamic Azad University, Mashhad Branch, Mashhad, Iran

https://doi.org/10.22034/jspr.2025.2051570.1111
Abstract
Introduction
Global transformations in the realms of architecture and urban planning, along with rapid urbanization and heightened public awareness of environmental and social challenges, have created a fertile ground for the present research. This study focuses on the critical shift from mere physical development to place-making within architecture and urban design. Such a transformation necessitates the application of innovative green project management methods, which, through capacity assessment and prioritization, enable the creation of nature-friendly spaces. The central question of this research examines how to enhance constructed environments into place-centered, nature-compatible spaces. To this end, the analysis of environmental, social, and economic dimensions forms the foundational core of the study.
Theoretical framework
This research aims to develop a theoretical and practical framework for designing sustainable interventions in architecture and urban planning. The primary question addresses how green project management methods can be effectively designed and implemented to simultaneously reduce negative environmental impacts and strengthen place attachment and environmental justice. Considering the increasing importance of reducing pollution, conserving natural resources, and improving urban life quality, addressing this subject is of paramount significance.
The necessity of this research can be analyzed from two perspectives. First, the need for standardized tools for sustainable environmental interventions amid the growing prevalence of algorithms, guidelines, and protocols in architectural and urban design practices. Second, the urgency of creating convergence between theories and practices related to green management and place-making to address environmental, social, and economic challenges effectively. Gaps in existing literature, such as the lack of interdisciplinary and operational frameworks, serve as motivating factors for this study.
Methodology
The methodology employed in this research is a qualitative meta-synthesis approach centered on theory development. Data were extracted from an analysis of 60 books and 50 articles, with the research process encompassing design, sampling, data collection, analysis, and theoretical development. The phases of this process emphasized identifying key factors and achieving theoretical saturation in the domains of green project management and place-making. Data analysis utilized techniques such as initial and descriptive coding, thematic network mapping, and discourse analysis. The development of analysis further involved inferential convergence and coherence among concepts.
Result and discussion
In the design phase, the problem was precisely defined, and its dimensions were thoroughly articulated. Subsequently, relevant data were collected from library sources based on the defined research samples and target population. Data coding employed elements derived from theoretical foundations, including core concepts, metaphors, expressions, and ideas. During data analysis, the network of intermediary variables was mapped to elucidate semantic alignment and conceptual consistency. Validation, clarity, and appropriateness analyses were conducted to align these variables with the environmental, social, and economic conditions of each region.
Findings indicate that nature-friendly place-making requires integrating green management practices with place-making principles. Twenty place-making and nine green management practices were identified and analyzed. Results revealed that the utilization of green technologies, ecological design, and attention to social and psychological dimensions significantly enhance life quality and environmental sustainability. Moreover, environmental justice and place attachment emerged as pivotal mediating concepts in the success of this process. Aligning these practices with spatial and locational characteristics facilitates context-sensitive decision-making and fosters improved human-nature relationships.
Through the examination of preconceptions and misconceptions in prior literature, this research identified conceptual, methodological, and thematic gaps and endeavored to address these through the proposal of a comprehensive theoretical framework. For instance, adapting green project management methods to local needs and socio-cultural attributes offers a strategy to enhance the effectiveness of architectural and urban interventions. In this regard, the typological analysis of 20 place-making practices and nine green management practices highlighted the potential of standardized tools to adapt these practices to local conditions.
Conclusion
The research also underscores the critical role of key analytical components. Concepts such as vocabulary, categories, and metaphors were instrumental in constructing semantic units related to place-making and green management. These elements provided a solid foundation for establishing a relational network among intermediary variables, including place attachment, environmental justice, and quality of life. Analyses of clarity and discursive translation contributed to a more precise and transparent understanding of these concepts, resulting in the synthesis and integration of data.
Ultimately, this research demonstrated that combining green management with place-making can simultaneously result in spaces that address environmental needs while enhancing social relations and place attachment. The findings serve as a foundation for location-based decision-making and the design of sustainable environmental interventions. Additionally, standardized tools offer a pathway for enhancing environmental quality in architectural and urban planning projects. This theoretical framework provides an opportunity to redefine green design principles and introduce an innovative approach to sustainable development, paving the way for future research in this domain.
By emphasizing the identification and typological analysis of place-making and green management practices, this research has effectively integrated various strategies. This integration has significantly contributed to practical and effective decision-making in the design of sustainable spaces, enabling the application of these findings in architectural and urban planning projects across diverse scales. Consequently, the present study is a pivotal contribution to green project management and sustainable place-making, promoting enhanced environmental quality, pollution reduction, and improved urban life quality.

Keywords

Green Value Added
Environmental Sustainability
Sustainable Performance
Building Efficiency
environmental interventions

Subjects

  1. Islamdoost-Kolidbari, Saeed, and Maedeh Akhondi. (2023). Urban Management and Sustainability. Tehran: Hoorin. [In Persian]
  2. Asghari, Alireza, Hassan Ebrahimi Asl, Aida Maleki Gavgani, and Hassan Sattari Sarbanqoli. (2021). Evaluation of a Sustainable Urban Neighborhood with Zero Energy Buildings in Valiasr Neighborhood of Tabriz. Sustainable City, 4 (2): 91-106. doi:10.22034/jsc.2021.259714.1364. [In Persian]
  3. Anvari, Zohreh. (2021). Urban Green Space in a Sustainable City (Case Study: Fadak Park in Tehran). Social Studies and Research in Iran, 10 (1): 313-344. doi:10.22059/jisr.2020.311701. [In Persian]
  4. Ilka, Omid, and Mehdi Rajhani. (2022). Cost Escalation, an Influential Factor on Sustainable Management of Construction Projects in Iran (Reasons for Cost Escalation in Construction Projects). Amirkabir Journal of Civil Engineering, 54 (2): 413-434. doi:10.22060/ceej.2021.18877.6989. [In Persian]
  5. Pakzad, Jahanshah, and Hamideh Bozorg. (2021). The Alphabet of Environmental Psychology for Designers. 7th ed. Tehran: Armanshahr. [In Persian]
  6. Tajdini, Abbas, Parviz Alipour, Ali Paydar, and Saeed Kashian. (2022). Feasibility of Improving the Value of Large-Scale Construction Projects Using the Integration of Value Engineering and Fuzzy Inference Prediction Model. Sharif Journal of Civil Engineering, 38.2 (4.1): 13-22. doi:10.24200/j30.2022.60060.3082. [In Persian]
  7. Khosravi, Abolfazl. (2018). Sustainable Development in Light of Selecting the Superior Criterion of Social Responsibility from the Perspective of Experts. Environmental Education and Sustainable Development, 7 (2): 77-90. doi:10.30473/ee.2019.5604. [In Persian]
  8. Rashid Kalvir, Hojatollah, Amirreza Karimi Azari, and Seyed Hadi Pourreza. (2020). Evaluation of Creating Child-Friendly City Components in Bandar Anzali. Urban Planning Knowledge, 4 (3): 51-65. doi:10.22124/upk.2020.14181.1273. [In Persian]
  9. Rezaei, Azadeh, and Mohammadreza Pourzargar. (2020). Revisiting the Concept of Green Roof in Contemporary Housing in Order to Promote the Standard of Living and Environmental Quality (Case Study: Tehran). Sustainable Architecture and Urban Development, 8 (1): 183-195. doi:10.22061/jsaud.2020.5715.1552. [In Persian]
  10. Rousta, Maryam, and Sara Daneshmand. (2021). Comparing the Approach of Undergraduate Students of Architectural Engineering and Urban Planning to the “Sustainable Neighborhood” (Case Study of Shiraz University Students). Iranian Architecture and Urban Planning, 12 (1): 175-189. doi:10.30475/isau.2021.227360.1392. [In Persian]
  11. Rifkin, Jeremy. (2023). Green Governance, Black Governance: The Transition to the Age of Clean Energy and the Transformation of Governance. (Edited by Mehdi Farahmandnejad). (Translated by Mohsen Asgari-Jahaghi). Tehran: Sales. [In Persian]
  12. Soleimani, Alireza, and Maryam Asadi. (2017). Environmental Psychology (Ethics, Behavior, and Urban Design). Tehran: Tahan. [In Persian]
  13. Shahbazi, Mehrdad, Mansour Yeganeh, and Mohammadreza Bemanian. (2020). Meta-Analysis of Environmental Vitality Factors in Open Spaces. Journal of Urban Studies, 9 (34): 61-76. doi:10.34785/J011.2021.812. [In Persian]
  14. Safari, Khadijeh, and Seyed Moslem Seyed Hosseini. (2015). Environmental Sustainability of the City (With a Look at New Urbanism). Tehran: Jahad Daneshgahi Publishing Organization. [In Persian]
  15. Abbasian Jahromi, Hamidreza, Maryam Pournaghi Kikleh, and Mehdi Ravanshadnia. (2021). Integration of Three Sustainable Development Tools, Lean Construction and Building Information Modeling Using Scientometrics Concepts. Journal of Structure and Construction Engineering, 8 (11): 45-60. doi:10.22065/jsce.2021.253855.2271. [In Persian]
  16. Fathi, Ebrahim. (2024). Meta-Synthesis Method and its Application. (Edited by Mehdi Vejdani). Tehran: Logos. [In Persian]
  17. Farhadian, Maryam, Sina Razaghi Asl, and Kaveh Shokoohi. (2020). Investigating How the Selection Process of the Global Award for Sustainable Architecture is Influenced Based on the Main Indicators of Sustainability. Environmental Science and Technology, 22 (4): 341-352. doi: 10.22034/jest.2018.23081.3219. [In Persian]
  18. Fazli, Masoud, Ahmad Jafarzadeh Afshari, and Mostafa Haji Aghaei Koshteli. (2020). Identification and Ranking of Green Building Projects Risks Using the SWARA-COPRAS Hybrid Approach: (Case Study: Amol City). Industrial Management Studies, 18 (58): 139-192. doi:10.22054/jims.2019.35905.2162. [In Persian]
  19. Finfgeld-Connett, Deborah. (2020). Meta-Synthesis Research. (Translated by Vajhollah Ghorbanizadeh). Tehran: Asr-e-Qalam. [In Persian]
  20. Finfgold-Kant, Deborah. (2023). A Guide to Qualitative Meta-Synthesis Research. (Edited by Zahra Shahriari). Tehran: Alzahra University. [In Persian]
  21. Ghorbani, Ali. (2021). Investigating the Challenges of Institutionalizing the Concept of Sustainability and Sustainable Development in Academic Education of Civil Engineering and Project Management in the UK and Italy and Providing a Framework for Consideration in the Related Educational Curriculum in the Country. Environmental Education and Sustainable Development, 9 (3): 55-62. doi:10.30473/ee.2021.51718.2177. [In Persian]
  22. Ghareh Baglou, Mino, Ghasem Motallebi, and Saman Saba. (2019). Re-Identification of the Concept of Value in the Relationship between Human and Environment in Open Residential Spaces in Traditional Iranian Architecture. Fine Arts: Architecture and Urban Planning, 24 (1): 101-114. doi:10.22059/jfaup.2019.270845.672174. [In Persian]
  23. Kolstad, Charles D. (2021). Environmental Economics, Volume 1. (Translated by Somayeh Amirtimouri, Ali Dehghani, and Azam Rezaei). Kerman: Shahid Bahonar University of Kerman. [In Persian]
  24. Gorji Mahlabani, Yousef. (2010). Sustainable Architecture and its Critique in the Field of Environment. Iranian Architecture and Urban Planning, 1 (1): 91-100. doi:10.30475/isau.2010.61928. [In Persian]
  25. Mozaffari Mehr, Mohammad Saeed. (2020). Modeling the Evaluation of Technical Requirements of Green Structures with Network Analysis Approach and Fuzzy Quality Development. Standard and Quality Management, 10 (3): 42-67. doi:10.22034/jsqm.2020.250344.1245. [In Persian]
  26. Maleki, Laden, Hamid Majedi, and Zahra Sadat Saeedeh Zarrabadi. (2019). Application of Metaswots Tool in Comparative Evaluation of Biophilic Cities Strategies with Emphasis on Climate Change. Urban Structure and Function Studies, 6 (19): 125-143. doi:10.22080/shahr.2019.15208.1657. [In Persian]
  27. Yazdani, Nima, and Mahmoud Golabchi. (2019). Identifying and Prioritizing the Essential Indicators in the Effectiveness of Project Portfolio Management with the Aim of Reducing Environmental Hazards in Iranian Construction Industry Projects. Environmental Hazard Management, 6 (4): 341-359. doi:10.22059/jhsci.2020.293553.521. [In Persian]

 

  1. (2015). Transforming our World: The 2030 Agenda for Sustainable Development. NewYork: United Nations. https://sdgs.un.org/publications/transforming-our-world-2030-agenda-sustainable-development-17981.
  2. Al-Khafaji, Amir, Jim Ardis, Scott Reeise, and Patrick Urich. (2019). "Sustainable and Green Solutions to The City of Peoria Combined Sewer Overflow Problems." In Project Management and BIM for Sustainable Modern Cities, edited by Mohamed Shehata and Fernanda Rodrigues, 269 (69-86). Berlin: Springer Cham. doi:10.1007/978-3-030-01905-1.
  3. Asadi, Ehsan, Manuel Gameiro da Silva, Carlos Henggeler Antunes, and Luis Dias. (2012). "A multi-objective optimization model for building retrofit strategies using TRNSYS simulations, GenOpt and MATLAB." Building and Environment 56: 370-378. doi:10.1016/j.buildenv.2012.04.005.
  4. Beatley, Timothy. (2010). Biophilic Cities: Integrating Nature into Urban Design and Planning. Washington, D.C.: Island Press.
  5. Birch, Eugenie L., and Susan M. Wachter,. (2011). Global Urbanization (The City in the Twenty-First Century). Pennsylvania: University of Pennsylvania Press.
  6. Bullard, Robert D. (2018). Dumping In Dixie. 3rd Edition-eBook Published. New York: Routledge. doi:10.4324/9780429495274.
  7. Burck, Jan, Thea Uhlich, Christoph Bals, Niklas Höhne, Leonardo Nascimento, Ana Tamblyn, and Jonas Reuther. (2021). The Climate Change Performance Index 2022: Results. 09 11. https://www.germanwatch.org/en/node/21110.
  8. Burgess, Rod, and Mike Jenks,. (2015). Compact Cities. London: Routledge.
  9. Ching, Francis D. K. (2023). Architecture: Form, Space, and Order. 5th edition. Hoboken, New Jersey: Wiley.
  10. Creswell, John W., and Cheryl N. Poth. (2017). Qualitative Inquiry and Research Design: Choosing Among Five Approaches. 4th edition. Thousand Oaks, California: SAGE.
  11. Denzin, Norman K., Yvonna S. Lincoln, Michael D. Giardina, and Gaile S. Cannella . (2023). The SAGE Handbook of Qualitative Research. Sixth edition. Thousand Oaks, California: SAGE.
  12. Edwards, Brian, and David Turrent . (2016). Sustainable Housing: Principles and Practice. Oxfordshire: Taylor & Francis.
  13. Freeman, R. Edward. (2010). Strategic Management: A Stakeholder Approach. Cambridge: Cambridge University Press.
  14. Frieman, Edward. (1991). Our Common Future. London: Oxford University Press.
  15. Gehl, Jan. (2010). Cities for People. Illustrated edition. New York: Island Press.
  16. Hagan, Susannah. (2014). Ecological Urbanism: The Nature of the City. London: Routledge.
  17. Heinberg, Richard. (2011). The End of Growth: Adapting to Our New Economic Reality. Original edition. Gabriola Island: New Society Publishers.
  18. Kellert, Stephen R., Judith Heerwagen, and Martin Mador. (2013). Biophilic Design: The Theory, Science and Practice of Bringing Buildings to Life. Hoboken, New Jersey: Wiley.
  19. Kibert, Charles J. (2022). Sustainable Construction: Green Building Design and Delivery. 5th edition. Hoboken, New Jersey: Wiley.
  20. McDonnell, Mark J., Amy K. Hahs, and Jürgen H. Breuste. (2009). Ecology of Cities and Towns: A Comparative Approach. Cambridge: Cambridge University Press.
  21. Meadows, Donella H., Jorgen Randers, and Dennis L. Meadows. (2012). Limits to Growth: The 30-Year Update. KINDLE & Illustrated edition. Vermont: Chelsea Green Publishing.
  22. Menconi, Maria Elena, Ambra Sipone, and David Grohmann. (2021). "Complex Systems Thinking Approach to Urban Greenery to Provide Community-Tailored Solutions and Enhance the Provision of Cultural Ecosystem Services." Sustainability 13 (21): 11787. doi:10.3390/su132111787.
  23. Newman, Peter, and Isabella Jennings. (2012). Cities as Sustainable Ecosystems: Principles and Practices. Illustrated and Kindle edition. New York: Island Press.
  24. Olgyay, Victor. (2015). Design with Climate: Bioclimatic Approach to Architectural Regionalism. New and expanded edition. Princeton: Princeton University Press.
  25. Pachauri, R. K., and L. A. Meyer. (2014). AR5 Synthesis Report: Climate Change 2014. Geneva, Switzerland: Intergovernmental Panel on Climate Change, 151. https://www.ipcc.ch/report/ar5/syr/.
  26. Pelling, Mark. (2010). Adaptation to Climate Change: From Resilience to Transformation. London: Routledge.
  27. Relph, Edward. (2022). Place and Placelessness (Research in Planning and Design). Thousand Oaks, California: SAGE Publications Ltd.
  28. Shen, Chenyao, Kang Zhao, and Jian Ge. (2020). "An Overview of the Green Building Performance Database." Journal of Engineering (WILEY) 3780595. doi:10.1155/2020/3780595.
  29. Shen, Liyin, Jorge Ochoa, and Haijun Bao,. (2023). Strategies for Sustainable Urban Development Addressing the Challenges of the 21st Century. Basel: Mdpi AG.
  30. Singh, Sanjay Kumar, Manlio Del Giudice, Roberto Chierici, and Domenico Grazian. (2020). "Green innovation and environmental performance: The role of green transformational leadership and green human resource management." Technological Forecasting and Social Change 150: 119762. doi:10.1016/j.techfore.2019.119762.
  31. Stahel, Walter R. . (2010). The Performance Economy. 2nd edition. London: Palgrave Macmillan.
  32. Vojnovic, Igor, ed. (2012). Urban Sustainability: A Global Perspective. Michigan: Michigan State University Press.
  33. WCED. (1987). Our Common Future. Oxford: Oxford University Press.
  34. Zhong, Weijie, Torsten Schröder, and Juliette Bekkering. (2022). "Biophilic design in architecture and its contributions to health, well-being, and sustainability: A critical review." Frontiers of Architectural Research 11 (1): 114-141. doi:10.1016/j.foar.2021.07.006.
  35. Zielinski, Tymon, Iwona Sagan, and Waldemar Surosz,. (2018). Interdisciplinary Approaches for Sustainable Development Goals. Berlin: Springer.

Home

Submit Manuscript

Contact Us