A review on biomass-fired CHP system using fruit and vegetable waste with regenerative organic Rankine cycle (RORC)

Kavathia, Karn; Prajapati, Parth

doi:10.1016/j.matpr.2020.12.052

Cited by 8 publications

(3 citation statements)

References 27 publications

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“…Pada Gambar 3 menunjukkan bahwa Organic Rankine Cycle (ORC) merupakan salah satu dari teknologi pemulihan panas. Menurut (Kavathia & Prajapati, 2021), sistem ORC merupakan sebuah sistem baru yang ramah lingkungan yang ditemukan untuk eksergi yang memiliki sumber panas tingkat rendah. Sistem ini dibangun untuk memulihkan sisa panas dan merubah sumber energi terbarukan menjadi energi listrik.…”

Section: Gambar 3 Klasifikasi Teknologi Pemulihan Panasunclassified

Tinjauan Singkat Sistem PLTP Siklus Gabungan Sarulla Menggunakan Ormat Energy Converter

Harefa

2023

JMEL

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Energi panas bumi pemanfaatannya masih belum maksimal di Indonesia. Hingga tahun 2020 realisasi pengembangan panas bumi menjadi listrik adalah sebesar 2.130,7 MW. Salah satu pembangkit listrik panas bumi (PLTP) di Indonesia yang telah beroperasi adalah Sarulla Geothermal Power Plant. Kapasitas total yang dihasilkan Sarulla adalah sebesar 330 MW. Sarulla merupakan Geothermal Combined Cycle yang menggunakan binary power plant untuk memaksimalkan energi panas bumi yang ada. Keluaran Steam Turbine Generator (STG) dimanfaatkan melalui Bottoming OEC untuk menghasilkan listrik sebesar 7 MW sedangkan Hot Water (Brine) dimanfaatkan melalui Brine OEC untuk menghasilkan listrik sebesar 15 MW. Keluaran uap sisa dan brine yang pada umumnya di injeksikan langsung pada injection well, dengan teknologi binary dari Ormat Energy Converter (OEC) kemudian dimanfaatkan untuk memaksimalkan energi panas bumi dengan menghasilkan listrik dengan kapasitas yang lebih kecil.

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Section: Gambar 3 Klasifikasi Teknologi Pemulihan Panasunclassified

Tinjauan Singkat Sistem PLTP Siklus Gabungan Sarulla Menggunakan Ormat Energy Converter

Harefa

2023

JMEL

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“…Sorgulu et al [13] experimentally designed a newly developed integrated ORC plant and reached 2.3 MW electric power. Kavatia and Prajati [14] reviewed biomass-to-energy plants using vegetable waste with an ORC. Nami and Arabkoohsar [15] designed a wastedriven combined heat and power (CHP) plant via parallel Rankine and Organic Rankine cycles and improved the power output by thermodynamic analysis.…”

Section: Introductionmentioning

confidence: 99%

Efficiency Optimization Thermal Analysis and Power Output of a Modified Incinerator Plant Using Organic Rankine Cycle

Vanaei

Jalili

Hosseinzadeh

et al. 2023

IJE

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“…Nowadays, the Organic Rankine Cycle (ORC) applications among the various waste heat recovery applications as a most promising and prospective technology are selected to convert low to medium temperature of heat sources, including geothermal energy, biomass energy, solar thermal energy, and industrial waste heat especially flue gas into power (Schilling et al, 2021;Kavathia et al, 2021;Loni et al, 2021;Alvi et al, 2021b;Eyerer et al, 2020;Vaupel et al, 2021;Hamid et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Subcritical Organic Rankine Cycle by Pure and Zeotropic of Binary and Ternary Refrigerants

Rowshanaie¹,

Tohir²,

Mustapha³

et al. 2022

JST

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The simulation configuration and process analysis of the Subcritical Organic Rankine Cycle (SORC) system are carried out for the potential comparison between pure, binary, and ternary zeotropic mixtures of R1234ze(E), R1234yf, and R134a as refrigerant working fluids based on applying the flue gas as a heat source with medium temperature. The compression pressure was selected as an optimized variable input parameter of SORC with the lower limit of boundary condition (1.4 MPa); to mitigate air ingress and sub-atmospheric pressure that led to approach optimum net power output generated. Increasing the compression pressure has a positive relationship with the superheated temperature and the mass enthalpy change in the evaporation and, therefore, in the expansion process. In parallel, the enthalpy and entropy changes in the flue gas and cold water positively correlate with exergy efficiency. So, R1234ze(E)/ R1234yf/R134a with 68.35% and R1234yf/ R134a with 69.29% as the lowest and highest exergy efficiency in the highest compression pressure; furthermore, the SIC consequences of increasing the cost of each component of the SORC system that has a direct relationship with the PPC and the required exchanger area of evaporation and condensation process and generating a net power output of the turbine. As a result, the maximum to the minimum value of specific investment cost (SIC) achieves R134a with 5807402.18-22455670.61 $.kW-1 and R1234yf with 16.82-17.38% reduction, respectively. To sum up, the lowest payback period (PBP) was R1234yf with 302 days.

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A review on biomass-fired CHP system using fruit and vegetable waste with regenerative organic Rankine cycle (RORC)

Cited by 8 publications

References 27 publications

Tinjauan Singkat Sistem PLTP Siklus Gabungan Sarulla Menggunakan Ormat Energy Converter

Tinjauan Singkat Sistem PLTP Siklus Gabungan Sarulla Menggunakan Ormat Energy Converter

Efficiency Optimization Thermal Analysis and Power Output of a Modified Incinerator Plant Using Organic Rankine Cycle

Evaluation of Subcritical Organic Rankine Cycle by Pure and Zeotropic of Binary and Ternary Refrigerants

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