Value Engineering in Enhancing Green Building Innovation

Authors

  • I Nyoman Indra Kumara Construction Management, Universitas Pendidikan Nasional, Denpasar, Indonesia
  • I Gede Fery Surya Tapa Transportations, Universitas Pendidikan Nasional, Denpasar, Indonesia
  • Decky Cipta Indrashwara Transportations, Universitas Pendidikan Nasional, Denpasar, Indonesia
  • I Wayan Dikse Pancane Electrical Engineering, Universitas Pendidikan Nasional, Denpasar, Indonesia
  • Made Aryatirta Predana Geotechnical Engineering, Universitas Udayana, Badung, Indonesia

DOI:

https://doi.org/10.25299/jgeet.2025.10.1.18570

Keywords:

Value Engineering, Green Building, Sustainable Development

Abstract

This research integrates the application of value engineering methods in buildings to enhance green building innovation. The use of value engineering methods, assisted by Dell'Isola Theory, functions as a structured framework to determine material substitution and streamline project value by considering quality, performance, cost, development sustainability, and energy efficiency. Through careful analysis and strategic application, this research presents innovations in improving cost efficiency and development sustainability in building construction projects. These findings indicate the potential for innovation in creating environmentally friendly yet economically viable environments. Furthermore, it can also contribute to reducing environmental impacts and supporting sustainable development goals.

Downloads

Download data is not yet available.

References

Alsaeed, B.S., Hunt, D.V. & Sharifi, S., 2022. Sustainable water resources management assessment frameworks (SWRM-AF) for arid and semi-arid regions: A systematic review. Sustainability, 14(22), 15293.

Al-Yami, A.M. & Price, A.D.F., 2005. Exploring conceptual linkages between value engineering and sustainable construction. In: 21st Annual ARCOM Conference. SOAS, University of London: Association of Researchers in Construction Management, vol. 1, 375–384.

Annappa, C.M. & Panditrao, K.S., 2013. Optimization of furniture product in furniture industry by using value engineering with function analysis, function evaluation and decision matrix: A case study. International Journal of Application or Innovation in Engineering & Management (IJAIEM), 2(3), pp.55–64.

Andelin, M., Karhu, J. & Junnila, S., 2015. Creating shared value in a construction project - a case study. Procedia Economics and Finance, 21, 446–453.

Badan Standarisasi Nasional Indonesia. 2013. SNI 1727:2013. Beban minimum untuk perancangan bangunan gedung dan struktur lain. ICS 19.040; 17.120.20-93.020

Becker, P.F.B., Effting, C. & Schackow, A., 2022. Lightweight thermal insulating coating mortars with aerogel, EPS, and vermiculite for energy conservation in buildings. Cement and Concrete Composites, 125, 104283.

Cao, Y., Kamaruzzaman, S. N., & Aziz, N. M. 2022. Building information modeling (BIM) capabilities in the operation and maintenance phase of green buildings: a systematic review. Buildings, 12(6), 830.

Das, S., & Kanchanapiboon, A. 2011. A multi-criteria model for evaluating design for manufacturability. International Journal of Production Research, 49(4), 1197-1217.

Dell'isola, A.J., 1970. Value engineering for highway construction. Roads and Streets, 113, 64–65

García, H., Zubizarreta, M., Cuadrado, J. & Osa, J.L., 2018. Sustainability improvement in the design of lightweight roofs: A new prototype of hybrid steel and wood purlins. Sustainability, 11(1), 39.

Heiza, K.M., Abo Elenen, N.E. & Mahdi, I.M., 2016. State of the art review on application of value engineering, value analysis and value management on construction projects: high rise buildings. In: International Conference on Civil and Architecture Engineering. vol. 11(11), 1–15.

Imron, A. & Husin, A.E., 2021. Value engineering and lifecycle cost analysis to improve cost performance in green hospital project. Archives of Civil Engineering, 67(4), 497–510.

Jonnala, S.N., Gogoi, D., Devi, S., Kumar, M. & Kumar, C., 2024. A comprehensive study of building materials and bricks for residential construction. Construction and Building Materials, 425, 135931.

Joibary, A.R.M. & Nagaraja, N., 2010. The survey of the value engineering indexes in the function of the Sari region petroleum (oil) products distribution company in Iran. Asian Journal of Development Matters, 4(3).

Mahdi, I., Heiza, K. & Elenen, N.A., 2015. Value engineering and value analysis of vertical slip form construction system. International Journal of Application or Innovation in Engineering & Management (IJAIEM), 4(6), 200–212.

Mahdi, I.M., Heiza, K.M. & Elenen, N.E., 2015. State of the art review on application of value engineering on construction projects: High rise building. International Journal of Innovative Research in Science, Engineering and Technology, 1(1).

Marcelline, T.R.S., Chengang, Y., Avotra, R. A.A., Hussain, Z., Zonia, J.E. & Nawaz, A., 2022. Impact of green construction procurement on achieving sustainable economic growth influencing green logistic services management and innovation practices. Frontiers in Environmental Science, 9.

Natalia, M., Mirani, Z., & Syahputra, J., 2022. Penerapan Value Engineering Pekerjaan Balok, Kolom Dan Pelat Lantai (Studi Kasus: Gedung Perpustakaan Daerah Kabupaten Bengkalis). Media Komunikasi Teknik Sipil, 28(1), 32-39.

Oguntona, O.A. & Aigbavboa, C.O., 2023. Nature inspiration, imitation, and emulation: Biomimicry thinking path to sustainability in the construction industry. Frontiers in Built Environment, 9, 1085979.

Salsabila, A., Setyowulan, D. & Arifi, E., 2024. Analysis value engineering at work apartment building wall. Astonjadro, 13(1), 245–250

Sheikh, D.B.A., Dar, D.I.M., Khan, D.O.F. & Wani, I.B., 2022. Value engineering as a sustainable tool in construction industry. International Journal of Research in Science & Amp, 1–7.

Shen, Q.G. & Yu, A.T.W., 2012. Value management: Recent developments and way forward. Construction Innovation Journal, 12, 264–271

Sobhanollahi, M.A., Kazemi, A. & Ghodratnama, A., 2014. Assessment of improvement of preventive maintenance (PM) systems related to the civil projects using concepts of value engineering (VE). International Journal of Engineering, 27(12), 1872–1878.

Sudiarsa, M., Sudiasa, W. & Sutapa, K., 2018. Value engineering approach for construction materials selection of irrigation drainage: Case study on project of DAS irrigation drainage improvement at Cengcengan River in Gianyar. International Journal of Physical Sciences and Engineering, 2(1), 35–46.

Uğural, M.N., 2023. Material selection with value engineering technique - A case study in construction industry. Tehnički vjesnik, 30(1), 292–301.

Wang, J. & Xu, W., 2022. Advanced lightweight materials for automobiles: A review. Materials & Design, 221, 110994.

Zhang, W. & Xu, J., 2022. Advanced lightweight materials for automobiles: A review. Materials & Design, 221, 110994.

Downloads

Published

2025-03-13 — Updated on 2025-03-31

Versions