BUILDING ENVELOPE RETROFIT FOR ENERGY SAVINGS IN MALAYSIAN GOVERNMENT HIGH-RISE OFFICES: A CALIBRATED ENERGY SIMULATION

Zalina Shari; Noor Laily  Mohamad; Nur Dalilah  Dahlan

doi:10.11113/jurnalteknologi.v85.15124

Authors

Zalina Shari Faculty of Design and Architecture, University Putra Malaysia, 43400 Serdang, Selangor, Malaysia https://orcid.org/0000-0001-8722-7811
Noor Laily Mohamad Faculty of Design and Architecture, University Putra Malaysia, 43400 Serdang, Selangor, Malaysia https://orcid.org/0000-0001-8722-7811
Nur Dalilah Dahlan Faculty of Design and Architecture, University Putra Malaysia, 43400 Serdang, Selangor, Malaysia https://orcid.org/0000-0002-5324-9091

DOI:

https://doi.org/10.11113/jurnalteknologi.v85.15124

Keywords:

Building envelope retrofit, building energy simulation, retrofit interventions, office buildings, energy savings

Abstract

With over a third of global energy used for building construction and operation, an optimum design for building envelopes is essential to improve the energy performance of the existing buildings. This study revealed that typical government high-rise office buildings in Malaysia have an average Building Energy Intensity (BEI) of 161 kWh/m²/year before any upgrading works on the air-conditioning and mechanical ventilation (ACMV) systems were conducted. This value is higher than the recommended value in Green Building Index (GBI) for commercial office buildings (150 kWh/m²/year) and the Economic Planning Unit (EPU) standard for public buildings (140 kWh/m²/year). Therefore, this study employed a case study approach combined with calibrated computer simulation to determine the optimal building envelope retrofit strategies and identify the three levels of interventions (minor, moderate and major levels) with corresponding energy reduction. A validated model representing a typical existing government high-rise office building in Malaysia was chosen as the base case model for energy evaluation studies. The effectiveness of each level of intervention and its energy retrofit measures (ERMs) were evaluated compared to the actual electricity bills. The results showed that all levels of interventions provided between 4% to 7% savings in annual energy consumption. The proposed interventions demonstrated compliance with the BEI benchmark margins of the GBI and EPU standard, namely 116 kWh/m²/year (minor intervention level), 113 kWh/m²/year (moderate intervention level), and 110 kWh/m²/year (major intervention level).

References

Global Alliance for Buildings and Construction, International Energy Agency and the United Nations Environment Programme. 2019. 2019 Global Status Report for Buildings and Construction: Towards a Zero-emission, Efficient and Resilient Buildings and Construction Sector. Retrieved from https://www.worldgbc.org/news-media/2019-global-status-report-buildings-and-construction.

Salimi, S., & Hammad, A. 2019. Critical Review and Research Roadmap of Office Building Energy Management based on Occupancy Monitoring. Energy and Buildings, 182: 214-241.

Cabeza, L. F., Bai, Q., Bertoldi, P., Kihila, J. M., Lucena, A. F. P., Mata, É., Mirasgedis, S., Novikova, A., Saheb, Y. 2022. Buildings. In IPCC, 2022: Climate Change 2022: Mitigation of Climate Change. Contribution of Working Group III to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change [P.R. Shukla, J. Skea, R. Slade, A. Al Khourdajie, R. van Diemen, D. McCollum, M. Pathak, S. Some, P. Vyas, R. Fradera, M. Belkacemi, A. Hasija, G. Lisboa, S. Luz, J. Malley, (eds.)]. Cambridge University Press, Cambridge, UK and New York, NY, USA.

Liu, G., Li, X., Tan, Y., & Zhang, G. 2020. Building Green Retrofit in China: Policies, Barriers and Recommendations. Energy Policy. 139: 111356.

International Energy Agency (IEA). 2022. Building Envelopes, IEA, Paris https://www.iea.org/reports/building-envelopes, License: CC BY 4.0.

Lucon, O., D. Ürge-Vorsatz, A. Zain Ahmed, H. Akbari, P. Bertoldi, L. F., & Cabeza, M. V. V. 2014. Buildings in: Climate Change 2014: Mitigation of Climate Change. Contribution of Working Group III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. USA: Cambridge University Press.

Aste, N., & Del Pero, C. 2013. Energy Retrofit of Commercial Buildings: Case Study and Applied Methodology. Energy Efficiency. 6(2): 407-423.

American Society of Heating, Ventilating, and Air Conditioning Engineers (ASHRAE). 2019. Advanced Energy Design Guide for Small to Medium Office Buildings: Achieving Zero Energy. Atlanta, GA, USA. Retrieved from https://www.ashrae.org/technical-resources/aedgs.

Mostafavi, F., Tahsildoost, M., & Zomorodian, Z. 2021. Energy Efficiency and Carbon Emission in High-rise Buildings: A Review (2005-2020). Building and Environment. 206: 108329.

Yong, M., Lesjak, M., Hor, K., Rowse, B., and Tandon, S. 2017. Compendium of Policy and Financial Instruments for Accelerating Building Sector Energy Efficiency in Malaysia. Building Sector Energy Efficiency Project (BSEEP): Kuala Lumpur, Malaysia.

Sun, X., Gou, Z., & Lau, S. S. Y. 2018. Cost-effectiveness of Active and Passive Design Strategies for Existing Building Retrofits in Tropical Climate: Case Study of a Zero-energy Building. Journal of Cleaner Production. 183: 35-45.

Liu, G., Li, X., Tan, Y., & Zhang, G. 2020. Building Green Retrofit in China: Policies, Barriers and Recommendations. Energy Policy. 139: 111356.

International Energy Agency (IEA). 2013. Transition to Sustainable Buildings: Strategies and Opportunities to 2050. Paris: OECD/IEA.

Lau, A. K. K., Salleh, E., Lim, C. H., and Sulaiman, M. Y. 2016. Potential of Shading Devices and Glazing Configurations on Cooling Energy Savings for High-rise Office Buildings in Hot-humid Climates: The Case of Malaysia. International Journal of Sustainable Built Environment. 5(2): 387-399.

Kandar, M. Z., Sulaiman, M. S., Rashid, Y. R., Ossen, D. R., Abdullah, A. M., Wah, L. Y., and Nikpour, M. 2011. Investigating Daylight Quality in Malaysian Government Office Buildings through Daylight Factor and Surface Luminance. Engineering and Technology. 59.

Lim, Y., Kandar, M. Z., Ahmad, M. H., Ossen, D. R., and Abdullah, A. M. 2012. Building Façade Design for Daylighting Quality in Typical Government Office Building. Building and Environment. 57(0): 194-204. Doi: http://dx.doi.org/10.1016/j.buildenv.2012.04.015.

Abd Rahman, N. M., Lim, C. H., & Fazlizan, A. 2021. Optimising the Energy Saving Potential of Public Hospital through a Systematic Approach for Green Building Certification in Malaysia. Journal of Building Engineering. 43: 103088.

United Nations Development Programme (UNDP). 2011. Building Sector Energy Efficiency Project (BSEEP) Report.

Stephen, N. 2012. Proper Retrofits Can Slash Building Energy Use by Half. Retrieved from http://www.greenprospectsasia.com/content/proper-retrofits-can-slash-building-energy-use-half#sthash.O3MS36go.dpuf.

American Society of Heating, Ventilating, and Air Conditioning Engineers (ASHRAE). 2014. Guideline 14-2014, Measurement of Energy and Demand Savings; Technical Report; American Society of Heating, Ventilating, and Air Conditioning Engineers. Atlanta, GA, USA.

Fabrizio, E., & Monetti, V. 2015. Methodologies and Advancements in the Calibration of Building Energy Models. Energies. 8(4): 2548-2574.

Ministry of Works Malaysia. 2014. List of Federal Buildings. Retrieved from http://www.kkr.gov.my/ms/bangunan/senarai.

Department of Standard Malaysia (MS 1525: 2019). 2019. Malaysian Standards 1525:2019 Energy Efficiency and Use of Renewable Energy for Non-residential Buildings – Code of Practice (Third revision). Cyberjaya: Department of Standards Malaysia.

Coakley, D., Raftery, P., and Keane, M. 2014. A Review of Methods to Match Building Energy Simulation Models to Measured Data. Renewable and Sustainable Energy Reviews. 37: 123-141.

Al-janabi, A., Kavgic, M., Mohammadzadeh, A., & Azzouz, A. 2019. Comparison of EnergyPlus and IES to Model a Complex University Building using Three Scenarios: Free-floating, Ideal Air Load System, and Detailed. Journal of Building Engineering. 22: 262-280.

Tang, C. K., & Chin, N. 2013. Building Energy Efficiency Technical Guideline for Passive Design. Malaysia Building Sector Energy Efficiency Project (BSEEP).

Zhai, J., LeClaire, N., and Bendewald, M. 2011. Deep Energy Retrofit of Commercial Buildings: A Key Pathway toward Low-carbon Cities. Carbon Management. 2(4): 425-430.

Al-Tamimi, N., & Fadzil, S. F. S. 2012. Energy-efficient Envelope Design for High-rise Residential Buildings in Malaysia. Architectural Science Review. 55(2): 119-127.

Ahrens, M. 2016. High-rise Building Fires. NFPA (National Fire Protection Association): Quincy, MA, USA.

Dahlan, N. D., Jones, P. J., Alexander, D. K., Salleh, E., & Alias, J. 2009. Daylight Ratio, Luminance, and Visual Comfort Assessments in Typical Malaysian Hostels. Indoor and Built Environment. 18(4): 319-335.

BUILDING ENVELOPE RETROFIT FOR ENERGY SAVINGS IN MALAYSIAN GOVERNMENT HIGH-RISE OFFICES: A CALIBRATED ENERGY SIMULATION

Authors

DOI:

Keywords:

Abstract

References

Downloads

Published

Issue

Section

License

How to Cite

Make a Submission

Database Indexing

Submission Guide

Information