APPLICATION OF THERMAL ENERGY STORAGE SYSTEM FOR A LOWLAND GREENHOUSE
DOI:
https://doi.org/10.11113/jt.v77.6865Keywords:
Thermal Energy Storage (TES), lowland farming house, cooling load estimation, greenhouse air-conditioning systemAbstract
This article presents a study to estimate the potential saving in annual operating cost of a hypothetical greenhouse used for planting strawberry, in Johor Bahru, Malaysia. The greenhouse needs to be maintained at a constant temperature of 20°C at all time. The goal of this study is to select a suitable TES system that can save the annual cost of electricity usage to meet the cooling load requirement of the greenhouse, based on a 24 hours operating duration and local electricity tariff. Comparison is made with the annual cost for running a conventional air-conditioning (AC) system to meet the cooling requirement. The cooling load requirement of the greenhouse dictates the capacity and size of the potential TES systems, which was estimated based on the highest total annual cooling load. Three TES system operating arrangements were considered in this study: TES full storage combined with AC systems, TES full storage and TES partial storage. Among these three arrangements, the TES full storage was found to have the highest an annual cost saving of about RM 58,990 compared to the cost of using the conventional AC system alone. This represents about 68 % of annual operating cost saving, which is considered very significant.
References
Hasnain, S. M. 1998. Review on Sustainable Thermal Energy Storage Technologies, Part I: Heat Storage Materials and Techniques. Energy Conversion and Management. 39(11): 1127-1138.
Sharma, A., Tyagi, V. V., Chen, C. R. & Buddhi, D. 2009. Review on Thermal Energy Storage with Phase Change Materials and Applications. Renewable and Sustainable Energy Reviews. 13(2): 318-345.
Rahman, M. M., Rasul, M. G. & Khan, M. M. K. 2011. Feasibility of Thermal Energy Storage Systems in an Institutional Building in Subtropical Climates in Australia. Applied Thermal Engineering. 31(14): 2943-2950.
Hasnain, S. M. 1998. Review on Sustainable Thermal Energy Storage Technologies, Part II: Cool Thermal Storage. Energy Conversion and Management. 39(11): 1139-1153.
Saito, A. 2002. Recent Advances in Research on Cold Thermal Energy Storage. International Journal of Refrigeration. 25(2): 177-189.
Dincer, I. 2002. On Thermal Energy Storage Systems and Applications in Buildings. Energy and Buildings. 34(4): 377-388.
Wang, S. Y. & Camp, M. J. 2000. Temperatures After Bloom Affect Plant Growth and Fruit Quality of Strawberry. Scientia Horticulturae. 85(3): 183-199.
Mohd Yusoff Senawi. 2000. Development of a Building Energy Analysis Package and its Application to Analysis of Cool Thermal Energy Storage Systems. Ph.D. Thesis. Universiti Teknologi Malaysia.
Downloads
Published
Issue
Section
License
Copyright of articles that appear in Jurnal Teknologi belongs exclusively to Penerbit Universiti Teknologi Malaysia (Penerbit UTM Press). This copyright covers the rights to reproduce the article, including reprints, electronic reproductions, or any other reproductions of similar nature.