Improvement of Double-Flash geothermal power plant design: A comparison of six interstage heating processes

Sarr, Joachim-André Raymond; Mathieu-Potvin, François

doi:10.1016/j.geothermics.2014.12.002

Cited by 28 publications

(8 citation statements)

References 15 publications

(24 reference statements)

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“…More specifically, the function fmincon.m is used with an "interior-point" algorithm (MathWorks, 2015). That algorithm has already been used in the context of thermodynamic cycle optimization in literature (e.g., Sarr and Mathieu-Potvin, 2015).…”

Section: Optimization Methodologymentioning

confidence: 99%

Geothermal power plants with maximized specific power output: Optimal working fluid and operating conditions of subcritical and transcritical Organic Rankine Cycles

2016

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In this paper, the design of an Organic Rankine Cycle (ORC) is optimized by means of numerical simulations. The systems of interest are the subcritical and transcritical thermodynamic cycles.Optimizations are performed with the objective of determining the design that maximizes the specific power output. The design variables include the operating parameters (pressures, mass flow rates), and the best working fluid is determined by comparing the performance of 36 refrigerants. Optimization runs are performed for a wide range of geofluid temperatures (from 80 to 180°C), and for a wide range of condenser temperature (from 0.1 to 50°C). The results are summarized in charts that may be used as efficient tools for designing optimal geothermal power plants. Finally, an approximate analysis allowed to develop new correlations for predicting the maximal specific power output of an ORC.

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Section: Optimization Methodologymentioning

confidence: 99%

Geothermal power plants with maximized specific power output: Optimal working fluid and operating conditions of subcritical and transcritical Organic Rankine Cycles

2016

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“…Interstage heating merupakan suatu konsep yang menambahkan heat exchanger kedalam sistem pembangkit sehingga dapat memanfaatkan panas internal pembangkit seefisien mungkin dengan tujuan untuk menaikan performa pembagkit. Konsep ini telah dibuat oleh Andrey Raymond Sarr (2015) [7] yang terinspirasi dari Mathieu-Potvin (2013) [8] and DiPippo (2013) [9]. Parameter yang sering menjadi pertimbangan ketika ingin merealisasikan suatu model pembangkit adalah daya output dan exergi, pada penelitian ini dilakukan analisis terhadap desain interstage heating dengan menggunakan analisis termodinamika secara keseluruhan dan analisis exergi yang difokuskan pada heat exchanger karena komponen utama pada interstage heating ini adalah heat exchanger, sehingga dapat terlihat performa setiap tipe pembangkit dan diperjelas fenomenanya dengan analisis exergi.…”

Section: Pendahuluanunclassified

Analisis Thermodinamika dan Exergi pada Pembangkit Listrik Tenaga Panas Bumi Sistem Double flash yang menggunakan Interstage Heating

Hakim¹,

Mulyana²,

Faizal³

et al. 2020

JIIF

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Interstage heating merupakan suatu konsep pengembangan yang dilakukan pada pembangkit listrik sistem double flash, pada paper ini dilakukan analisis termodinamika terhadap model pemangkit double flash yang menggunakan interstage heating (Superheating, Reheating dan Mixture-heating) dengan parameter tinjauan adalah daya output dan exergi. Analisi termodinamika khususnya daya output dilakukan dengan meninjau pembangkit secara keseluruhan, sedangkan analisis exergi difokuskan pada bagian heat exchanger yang digunakan untuk interstage heating. Pada penelitian ini dilakukan variasi temperatur reservoir (180C-220C) dengan temperatur dead steate adalah 25C. Hasil dari penelitian ini memperlihatkan bahwa interstage heating dapat menjadi konsep yang konstruktif atau destruktif, konstruktif untuk tipe reheating dan mixture heating karena mengalami kenaikan daya output dan exergi, destruktif untuk tipe superheating karena mengalami penurunan daya output dan exergi, konstruktif dan destruktif ini dititik beratkan penyebabnya pada proses transfer panas yang terjadi di heat exchanger, secara keseluruhan tipe interstage heating terbaik adalah tipe mixture heating dengan kenaikan daya output rata-rata sebesar 7.6% dan exergi rata-rata sebesar 1.1% saat dibandingkan dengan sistem double flash.

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“…Double-or multiple-flash arrangements, including attractive, complex regenerative heat recovery schemes [20] are not here considered, because the BG3 architecture is already oriented toward the hybridization of a single-flash power plant through addition of an ORC cycle. Moreover, the well flow rate was maintained for all simulations at 121.9 kg/s, with a primary flash at 20 bar: this corresponds to optimal conditions for the present layout according to the well productivity curve, which should be marginally affected by the proposed layout improvements.…”

Section: Power Plant Arrangements For Improved Sustainabilitymentioning

confidence: 99%

Improving the Environmental Sustainability of Flash Geothermal Power Plants—A Case Study

et al. 2015

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Abstract:The sustainability of geothermal energy production is analyzed with reference to a production plant located in a specific area (Monte Amiata, Italy). Four solutions combining a flash power plant with an Organic Rankine Cycle in a hybrid configuration are analyzed in terms of production of electricity, exergy balance and emissions level (CO2, H2S, Hg). The different solutions correspond to increasing environmental performance, and for the most advanced case achieve near-zero emissions (complete reinjection of the natural resource, including incondensable gases). The results show that this can be achieved at the price of a progressive reduction of electrical productivity.

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Improvement of Double-Flash geothermal power plant design: A comparison of six interstage heating processes

Cited by 28 publications

References 15 publications

Geothermal power plants with maximized specific power output: Optimal working fluid and operating conditions of subcritical and transcritical Organic Rankine Cycles

Geothermal power plants with maximized specific power output: Optimal working fluid and operating conditions of subcritical and transcritical Organic Rankine Cycles

Analisis Thermodinamika dan Exergi pada Pembangkit Listrik Tenaga Panas Bumi Sistem Double flash yang menggunakan Interstage Heating

Improving the Environmental Sustainability of Flash Geothermal Power Plants—A Case Study

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