STUDI LITERATUR TENTANG SISTEM PENDINGIN DENGAN PERTUKARAN LANGSUNG (DIRECT EXCHANGE) GEOTERMAL DAN AIR SEBAGAI REFRIGERAN
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Published:
Oct 28, 2014
Keywords:
geotermal, pertukaran langsung (direct exchange), air, rumus empiris
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Abstract
Sistem HVAC adalah salah satu komponen terbesar dalam konsumsi energi di sebuah gedung. Untuk rumah pribadi dapat mengkonsumsi energy hingga 42%. Terdapat pilihan sistem tata udara dengan efisiensi tinggi yaitu sistem geotermal. Pada tulisan ini, penulis melakukan kajian literatur terhadap teknik tata udara memanfaatkan geotermal dengan sistem Direct Exchange (Pertukaran langsung) dengan menggunakan air sebagai refrigerannya.Sistempertukaran langsung (direct exchange) adalah sistem tipe pendingin dan pemanas geotermal tertutup pada pipa tembaga dimana refrigeran bersirkulasi. Pipa tembaga dipasang pada jalur yang dipasang secara vertical atau horizontal. Simulasi pemodelan sistem tata udara dengan sistem pompa kalor geothermal untuk gedung tempat tinggal menunjukkan bahwa periode 5 tahun merupakan hasil terbaik sebagai penukar kalor adalah 14 penukar kalor disusun seri dengan jarak 10 meter dan panjang 100 m. Sistem geotermal dengan sistem pertukaran langsung (direct exchange), tanpa adanya secondary refrigeran berhasil menurunkan suhu ruangan. Gaffar menggunakan air sebagai refrigeran pada sistemnya, dengan penambahan koil penguap sebagai elemen penunjang. Air yang mengalir pada pipa tembaga mampu mentransfer kalor dari dingin (air tanah) ke panas (lingkungan) dengan karakteristik panjang pipa, diameter pipa yang bervariasi, dan kecepatan alir yang bervariasi akan memiliki kemampuan pemindahan kalor yang bervariasi pula.Berdasarkan studi literature yang telah dilakukan, didapatkan kesimpulan bahwa sistem pertukaran langsung (Direct Exchange) geotermal dapat dilakukan dengan menggunakan air sebagai refrigeran, laju perpindahan kalor pada pipa dengan fluida air dipengaruhi oleh dimensi pipa dan suhu air tanah, dan dalam perencanaan dan penerapan teknik khususnya sistem pertukaran langsung geotermal dapat didekati dengan rumus rumus empiris.
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How to Cite
Widiyatmoko, W. (2014). STUDI LITERATUR TENTANG SISTEM PENDINGIN DENGAN PERTUKARAN LANGSUNG (DIRECT EXCHANGE) GEOTERMAL DAN AIR SEBAGAI REFRIGERAN. AUSTENIT, 6(2). https://doi.org/10.5281/zenodo.4546654
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2. Calabro, G., dan Fazio, A, 2012, “The Role of Geothermal Energy in Cooling and Heating Systems”, International Journal of Academic Research in Accounting, Finance and Management
Sciences, Vol.02, Issue 1, pp 224-232
3. Choudhyry, A, 2013, “HVAC vs Geothermal Heat Pump-Myth and Truth”, Open Journal of Energy Efficiency, Vol.02, 2013, pp 42-45
4. Clement, R., et al, 2012, “Modelling and Analyse of a Direct Expansion Geothermal Heat Pump (DX) : part 1
Modelling of Ground Heat Exchanger”, Notre-Dame Qouset Montreal (Quebec) : Canada
5. Cocchi, S., Castellucci, S., dan Tucci,
2013, “Modelling of an Air Conditioning System With Geothermal Heat Pump for a Residential Building”, Hindawi Publishing Corporation Mathematical Problem in Engineering, Vol.2013, Article ID 781231, pp
6. Holman, J.1994. Perpindahan Kalor, alih
bahasa oleh Jasjfi, Edisi keenam. Penerbit Erlangga : Jakarta
7. Jindal T.K, 2012, “Analysis of Heat Transfer Through A Duct Of Geothermal Cooling and Heating System”, International Journal of Emerging Technology and Advanced Engineering, Vol. 2, Issue 10, Oct. 2012, pp 284-287
8. Kasich, J.R. dan Taylor, M, 2012, “Recommendations for Geothermal Heating and Cooling Systems” Ohio Water Resource Council : Ohio
9. Kelly, J. 2009. Direct Exchange : What Is It? What its Relation To Ground Water?, Water/Energy Sustainability Symposium At The GWPC Annual Forum. Geo Exchange.
10. Kunkel, T, 2012, “Geothermal Energy As An Indigenous Alternative Energy Source In British Columbia” Journal of Ecosystems & Management, Vol.13, No
2, pp 1-16
11. Mali, S.N., More, A.B., Patil, D.S, 2014, “Application of Geothermal Cooling Tchniques to Improve Thermal Condition of Residential Building” International Journal of Civil and Structural Engineering Research, Vol.2, Issue 1, April-September 2014, pp 158-161
12.Masheiti, S., dan Agnew, B, 2010, “Thermodynamic Simulation Modelling of Low Temperatur Geothermal Source Located in Arid-Zone Area North Africa”, Jordan Journal of Mechanical and Industrial Enginering, Vol.4, No.1, Jan. 2010, pp 61-68
13.McGovern, J, 2011, ”Technical Note : Friction Factor Diagrams for Pipe Flow”, Dublin Institute of Technology
14.Momin, G.G, 2013, “Experimental Investigation of Geothermal Air Conditioning”, American Journal of Engineering Research (AJER) Vol.02, Issue 12, pp 157-170
15.National Renewable Energy Laboratory (NREL), 2011, “Policymakers Guidebook for Geothermal Heating and Cooling”, NREL/BR-6A20-49477 Revised February 2011
16.Thomas H., et al. 2007. Geothermal Central System. ASHRAE Journal
17.http://www.geothermie.de/wissenswelt/arc hiv/englisch/description-of-ground-source- types-for-the-heat-pump.html (diakses tanggal 20 maret 2015)