Simulation of Solar Organic Rankine Cycle System Using Turbocharger with Cycle Tempo and Environmentally Friendly Fluid

Ruli Nutranta; Muhammad Idrus Alhamid; Nasruddin Nasruddin; B. Harinaldi

doi:10.4028/www.scientific.net/AMM.388.13

Paper Titles

Preface and International Advisory Board

Numerical Analysis of Elastohydrodynamic Lubrication with Non-Newtonian Lubricant
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Investigation of the Velocity Profiles in a Ninety-Degree Curved Standing Wave Resonator with Particle Image Velocimetry
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Simulation of Solar Organic Rankine Cycle System Using Turbocharger with Cycle Tempo and Environmentally Friendly Fluid
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Pool Boiling of Nanofluids in Vertical Porous Media
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Simulation of Corrected Mass Flow and Non-Adiabatic Efficiency on a Turbocharger
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Preliminary Study on the Comparable Flow Pattern between Stented and Non-Stented Aneurysm at Hypertension Condition
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 388Simulation of Solar Organic Rankine Cycle System...

Simulation of Solar Organic Rankine Cycle System Using Turbocharger with Cycle Tempo and Environmentally Friendly Fluid

Abstract:

Organic Rankine cycle (ORC) is a modified rankine cycle with working fluids, of organic material (Refrigerant). Refrigerant pentane has low boiling point, therefore ORC can be used in power plant which uses low temperature resources, such as solar thermal exhausted gases and geothermal wells. Organic Rankine Cycle (ORC) is used to convert heat energy into mechanical energy or electricity generated by a low temperature of the hot sun. The working fluid used is HCR12, HCR22, HCR134a and Pentane. Simulations performed with an organic Rankine cycle temperature and pressure with cycle tempo program. By programming the simulation cycle tempo and got the result on the maximum power a turbine to the conditions of the working fluid Pentane to the input turbine T = 700C and pressure = 2 bar can generate 2.07 kW. Turbocharger is one of the alternatives in the energy conversion of the energy of motion into electrical energy. Turbocharger rotation will be used to turn a generator and converts the energy of motion into electrical energy.

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Periodical:

Applied Mechanics and Materials (Volume 388)

Pages:

13-17

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.388.13

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Online since:

August 2013

Authors:

Ruli Nutranta, Muhammad Idrus Alhamid, Nasruddin Nasruddin, B. Harinaldi

Keywords:

Organic Rankine Cycle (ORC), Turbocharger, Working Fluid

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References

[1] Sumiarso L., Regulasi dan pengembangan energi baru terbarukan dalam rangka energi bersih. Universitas Mercu Buana, Indonesia, (2011).

DOI: 10.14710/jebt.2021.10043

Google Scholar

[2] Yamamoto T, Furuhata T, Arai N, Mori K. Design and testing of the organic Rankine cycle. Energy 2001; 26: 239-51.

DOI: 10.1016/s0360-5442(00)00063-3

Google Scholar

[3] Saleh B, Kogibauer G, Wedland M, Fischer J. Working for low temperature organic Rankine cycle. Energy 2007; 32: 1210-21.

Google Scholar

[4] Tchanche BF, Papandakis G, Lambrios G, Frangoudakis. A Fluid selection for low temperature solar organic Rankine cycle. ApplThermEng 2009; 29: 2168-76.

DOI: 10.1016/j.applthermaleng.2008.12.025

Google Scholar

[5] D. Mills, Advanced in Solar thermal electricity technology, Solar Energy (2004), vol 76 pp.19-31.

Google Scholar

[6] D Sancez, JM Munoz de Escalona, B Monje, R Chacartegui, T Sanchez, Preeliminary analysis of compound system based on high temperature fuel cell, gas turbine and organic Rankine Cycle, Journal of Power Source (2011), vol 196 pp.4355-4363.

DOI: 10.1016/j.jpowsour.2010.07.060

Google Scholar

[7] Vankeirsblick, Vanslambrouck, Gusev, De Paepe, Organic Rankine cycle as efficient alternative to steam cycle for small scape power generation, International Conference of Heat Transfer, Fluid Mechanic and Thermodynamic, Mauritius (2011).

Google Scholar

[8] FaoziNasri, Chouki Ali, Habib Ben Bacha, Electricity production system form solar heated rankinecycle : modelling and simulation, IJRRAS (2011) vol 8 pp.176-183.

Google Scholar

[9] Nguyen VM, Doherty PS, Rifat SB, Development of a Prototype Low Temperature Rankine Cycle Electricity Generation System, Applied Thermal Engineering 2001 pp.168-181.

DOI: 10.1016/s1359-4311(00)00052-1

Google Scholar

[10] Brown S, The Turbomustangs. com : Complete Turbocharging guide, Underpsi of utahstang. com, (2003).

Google Scholar

[11] Nutranta. R, AlHamid. MIA, Nasrudin, Harinaldi. Studi karakteristik fluida kerja hydrokarbon ramah lingkungan pada siklus rankine (SRO) bertenaga surya. SNTTM X Universitas Brawijaya Malang Indonesia, (2011).

Google Scholar