Analysis of Factors Influencing The Implementation of Sustainable Construction Management Towards Project Waste Management in The National Capital City
DOI:
https://doi.org/10.59188/eduvest.v5i1.50310Keywords:
IKN, Sustainable Construction, Waste, Construction ManagementAbstract
The construction industry currently contributes 13% to the world's Gross Domestic Product (GDP), uses 36% of global energy and produces 39% of energy-related CO2 emissions. The application of Environment, Social, and Governance (ESG) principles is increasing in construction management to achieve sustainability. The construction sector brings diverse impacts on the environment, especially through significant construction waste. The relocation of the National Capital City (IKN) to East Kalimantan has the principles of smart city, forest city, and sponge city which carry the concept of sustainable construction. So this study will analyze the factors that influence the implementation of sustainable construction management on project waste management in IKN. The method used is a survey method with a quantitative method approach and the research variables used are based on the results of a literature review. So that from the results of the analysis it is concluded that the factors that influence sustainable construction management on waste management are Energy Efficiency, where the indicator that has the highest value is the use of energy-efficient plants, machinery and equipment. This is because the implementation of work at IKN cannot be separated from a development approach that prioritizes the use of wise, efficient resources and minimal environmental impact.
References
Andiyan, R. B. (2023). Project Management (Theory and Application). Jambi: Sonpedia Publishing Indonesia.
Aribowo, M.R.W., Yuwono, B.E. (2024). Most Prioritized Points in GREENSHIP New Building Certification. In: Mohammed, B.S., Min, T.H., Sutanto, M.H., Joewono, T.B., As'ad, S. (eds) Proceedings of the International Conference on Emerging Smart Cities (ICESC2022). ICESC 2022. Lecture Notes in Civil Engineering, vol 324. Springer, Singapore. https://doi.org/10.1007/978-981-99-1111-0_24
BPS. (2023). Construction Indicator TW II-2023. Jakarta: Central Bureau of Statistics.
Daugaard, D. (2020). Emerging new themes in environmental, social and governance investing: a systematic literature review. Accounting and Finance, 60(20), 1501-1530. Retrieved from https://doi.org/10.1111/
Ervianto. (2004). Construction Project Management Application Theory. Yogyakarta: Andi.
Faathir Al Kasa, A. H. (2021). Evaluation Method of Mark-up Value for Contractor Bid Prices at Electronic Auctions for Building. Journal of Artesis, Vol. 1(1), pp 58-67.
Friedman, L. (1956). A Competitive-Bidding Strategy. Operations Research, Vol. 4, pp. 104-112.
Kurniyaningrum, E., Faluty, M. D., Mulya, H. D., Andayani, S., Hidayat, D. P. A., Sejati, W., Sattar, H. (2024). Factor For Correcting The Rainfall Of Chirps Satellite Data Against Observation Data On The Ciliwung Watershed (Case Study Of Kemayoran Meteorological Station). International Journal on Livable Space, 9(2), 149-158. https://doi.org/10.25105/livas.v9i2.19919
Mandiyo Priyo, H. P. (2013). Bidding Strategy in Construction Industry (Case Study in Electronic Procurement Service, Bandung City). Scientific Journal of Semesta Teknika, Vol. 16, No. 1, 31-38.
Mavi, R. K. (2021). Sustainability in construction projects: A systematic literature. 1-24. Retrieved from https://doi.org/10.3390/su13041932
Patmadjaja, H. (1999). Bidding Strategy Model for Construction Projects in Indonesia. Surabaya: Petra Christian University.
Ribeirinho, M. J. (2020). The next normal in construction: How disruption is reshaping the world's largest ecosystem. Retrieved from McKinsey & Company: https://www.mckinsey.com/business-functions/operations/our-insights/the-next-normal-820
(2), 371–382. https://doi.
Safitri, A. R., Yuwono, B. E. (2020). Analysis of the Level of Ease of Development in the Appropriate Site Development Category According to the Developer in Green Building. Journal
Sustainable Built Environment Engineering. 1(1), 7-12. https://doi.org/10.25105/jrltb.v1i1.7784
Shaker, M. R., Eustace, B. S., Erukala, H. K. G., Patel, R. G., Mohammed, M. B., Jabri, M. A., Desai, K., Goyal, R., & Chang, B. (2022). Analysis of Survey on Barriers to the Implementation of Sustainable Projects. Sustainability (Switzerland), 14(24), 1-17. https://doi.
Sormunen, P., & Kärki, T. (2019). Recycled construction and demolition waste as a possible source of materials for composite manufacturing. Journal of Building Engineering, 24(100742), 1-14. https://doi.org/10.1016/j.jobe.2019.100742
Sutantio, A., Anwar, N., Wiguna, I. P. A., & Suryani, E. (2022). Developing a Model of Sustainable Construction for Condominium Projects in Developing Countries; Case of Indonesia. International Journal of GEOMATE, 23(96), 85-94. https://doi.
Swetha, S., Tezeswi, & Siva, S. K. (2022). Implementing construction waste management in India: An extended theory of planned behavior approach. Environmental Technology and Innovation, 27(102401), 1-16. https://doi.
Yu, W., Cheng, S., Ho, W., & Chang, Y. (2018). Measuring the Sustainability of Construction Projects throughout Their Lifecycle: A Taiwan Lesson. Sustainability, 10(1523). https://doi.
Published
How to Cite
Issue
Section
License
Copyright (c) 2025 Ardiasa Septasawala, Endah Kurniyaningrum, M. Zaki, Inavonna
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
