Review on Design Strategies of Energy Saving Office Building with Evaporative Cooling in Tropical Region

Rizvanda Ryan Savero, I Gusti Ngurah Antaryama, Bambang Soemardiono

Abstract


This research reviews the theories and design of energy-saving office buildings that apply evaporative cooling concepts to inhibit solar heat and improve natural cooling. The limited land in urban areas forces the building orientation facing East-West to increase building heat gain in tropical regions. This research is interesting because evaporative cooling is rarely found in office building design, especially in tropical areas. The method used is literature searching (theory, journal, and president) related to the energy-saving building (passive design) and passive cooling with evaporative cooling techniques. A review of design strategies can be used as a reference for general criteria applied at the design stage of office building architectural design. As a limitation, questions are needed to find related theories such as (1) what are the factors of building heat control and the criteria required in designing energy-saving office building (2) how to apply evaporative cooling techniques to design the energysaving office building. Solar heat is a key factor in building heat gain. So it must be noticed to control building heat to protect heat transfer into buildings. The results of the design energy saving office buildings in the tropical region have required the application of passive designs such as building orientation, building core placement, shading elements, cross ventilation, natural lighting, producing shape, and application of evaporative cooling with consideration of wind direction and hottest side due to solar radiation

Keywords


Energy saving, Evaporative Cooling; Literature Review; Office Building: Passive Design

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References


Sayigh A. Sustainable High Rise Building in Urban Zones : Advantages, Challenges, and Global Case Studies. Cham, Switzerland: Springer International Publishing; 2017.

Norbert L, C W. Heating, Cooling, Lighting : Sustainable Design Methods for Architects. Hoboken, New Jersey: John Wiley & Sons, Inc; 2015.

Elotefy H, Abdelmagid KSS, Morghany E, Ahmed TMF. Energy-Efficient Tall Buildings Design Strategies: A Holistic Approach. International Conference on Technologies and Materials for Renewable Energy, Environment and Sustainability, TMREES15 2015;74:1358–1369. http://dx.doi.org/10.1016/j.egypro.2015.07.782.

Yeang K, Robert Powell. Designing the Ecoskyscraper: Premises for Tall Building Design. The Structural Design of Tall and Special Buildings 2007;16(4):411–427.

Yeang K. The Green Skyscraper: The Basis for Designing Sustainable Intensive Buildings.Munich. Munich,New York: Prestel; 1999.

Gonzalo R, Habermann KJ. Energy Efficient Architecture : Basics for Planning and Construction. Basel Boston: Birkhauser Architecture; 2006.

States OoA. Energy Efficiency Guidelines for Office Buildings in Tropical Climates. American States: Department of Sustainable Development; 2013.

Apritasari YD. Optimization Design of Light Shelf for Visual Comfort and Energy Savings in an Office Space. In: ECEEE 2017 Summer Study on Energy Efficiency Belambra Les Criques, Toulon/Hyères, France; 2017. p. 1237–1242.

Chungloo S, Limmeechokchai B. Application of Passive Cooling Systems in the Hot and Humid Climate: The Case Study of Solar Chimney and Wetted Roof in Thailand. Building and Environment 2007 sep;42(9):3341–3351.

Ripple J. Generative material simulation: Contemporary trends in parametric structural design. In: Structures and Architecture - Proceedings of the 3rd International Conference on Structures and Architecture, ICSA 2016 Guimarães, PORTUGAL: University of Minho; 2016. p. 283–289.

Abu Khadra A, Chalfoun N. Development of An Integrated Passive Cooling Facade Technology for Office Buildings in Hot Arid Regions. WIT Transactions on Ecology and the Environment 2014 jan;1:521–534.

Mainini AG, Speroni A, Zani A, Poli T. The Effect of Water Spray Systems on Thermal and Solar Performance of an ETFE Panel for Building Envelope. In: Procedia Engineering, vol. 155 Elsevier Ltd; 2016. p. 352–360.

Al Touma A, Ouahrani D. Performance Assessment of Evaporatively-Cooled Window Driven by Solar Chimney in hot and Humid Climates. Solar Energy 2018 jul;169:187–195.




DOI: http://dx.doi.org/10.12962/j20882033.v31i2.5607

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