Simulation of an advanced geothermal conversio plant in Peru

Sofia Chauca Paredes; Graciela Rojas Garcia; George Power

Simulation of an advanced geothermal conversio plant in Peru

Sofia Chauca Paredes, Graciela Rojas Garcia, George Power

Resultado de la investigación: Contribución a una revista › Artículo (Contribución a Revista) › revisión exhaustiva

Resumen

This investigation aims to simulate an efficient plant that generates energy
through a solar-geothermal hybrid energy conversion system with supercritical steam, Therminol VP1, geothermal fluid and R134a refrigerant. The goal is to exemplify a hybrid solution that optimizes and takes advantage of the existing properties of the solar and geothermal power cycles. The geothermal part of the process, the primary cycle, is augmented by the solar thermal cycle to obtain a high-efficiency result.
In addition, it allows the reader to understand the ideal process of this type of plant and a thermodynamic analysis represented by creating a detailed model block flow diagram, which is then turned into a dynamic one used to examine the selected parameters such as temperature, flow rate, and pressure variations. The dynamic model approximated the thermal values of the heat exchangers and the working fluids in the exchangers, solar collectors, piping and in the storage tanks.

Idioma original	Inglés estadounidense
Páginas (desde-hasta)	205-222
Número de páginas	18
Publicación	Ingeniería Industrial
N.º	41
Estado	Publicada - 7 dic. 2021

Categoría OCDE

Ingeniería del Petróleo, (combustibles, aceites), Energía, Combustibles

Categorías Repositorio Ulima

Ingeniería industrial / Tecnología de procesos

ODS de las Naciones Unidas

Este resultado contribuye a los siguientes Objetivos de Desarrollo Sostenible

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https://revistas.ulima.edu.pe/index.php/Ingenieria_industrial/article/view/5546/5388Licencia: CC BY

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title = "Simulation of an advanced geothermal conversio plant in Peru",

abstract = "This investigation aims to simulate an efficient plant that generates energythrough a solar-geothermal hybrid energy conversion system with supercritical steam, Therminol VP1, geothermal fluid and R134a refrigerant. The goal is to exemplify a hybrid solution that optimizes and takes advantage of the existing properties of the solar and geothermal power cycles. The geothermal part of the process, the primary cycle, is augmented by the solar thermal cycle to obtain a high-efficiency result.In addition, it allows the reader to understand the ideal process of this type of plant and a thermodynamic analysis represented by creating a detailed model block flow diagram, which is then turned into a dynamic one used to examine the selected parameters such as temperature, flow rate, and pressure variations. The dynamic model approximated the thermal values of the heat exchangers and the working fluids in the exchangers, solar collectors, piping and in the storage tanks.",

keywords = "Geothermal energy, Simulation, Flash plant, Renewable energy, Conversion plant",

author = "{Chauca Paredes}, Sofia and {Rojas Garcia}, Graciela and George Power",

year = "2021",

month = dec,

day = "7",

language = "American English",

pages = "205--222",

journal = "Revista Ingenier{\'i}a Industrial (Universidad de Lima)",

issn = "1025-9929",

number = "41",

}

TY - JOUR

T1 - Simulation of an advanced geothermal conversio plant in Peru

AU - Chauca Paredes, Sofia

AU - Rojas Garcia, Graciela

AU - Power, George

PY - 2021/12/7

Y1 - 2021/12/7

N2 - This investigation aims to simulate an efficient plant that generates energythrough a solar-geothermal hybrid energy conversion system with supercritical steam, Therminol VP1, geothermal fluid and R134a refrigerant. The goal is to exemplify a hybrid solution that optimizes and takes advantage of the existing properties of the solar and geothermal power cycles. The geothermal part of the process, the primary cycle, is augmented by the solar thermal cycle to obtain a high-efficiency result.In addition, it allows the reader to understand the ideal process of this type of plant and a thermodynamic analysis represented by creating a detailed model block flow diagram, which is then turned into a dynamic one used to examine the selected parameters such as temperature, flow rate, and pressure variations. The dynamic model approximated the thermal values of the heat exchangers and the working fluids in the exchangers, solar collectors, piping and in the storage tanks.

AB - This investigation aims to simulate an efficient plant that generates energythrough a solar-geothermal hybrid energy conversion system with supercritical steam, Therminol VP1, geothermal fluid and R134a refrigerant. The goal is to exemplify a hybrid solution that optimizes and takes advantage of the existing properties of the solar and geothermal power cycles. The geothermal part of the process, the primary cycle, is augmented by the solar thermal cycle to obtain a high-efficiency result.In addition, it allows the reader to understand the ideal process of this type of plant and a thermodynamic analysis represented by creating a detailed model block flow diagram, which is then turned into a dynamic one used to examine the selected parameters such as temperature, flow rate, and pressure variations. The dynamic model approximated the thermal values of the heat exchangers and the working fluids in the exchangers, solar collectors, piping and in the storage tanks.

KW - Geothermal energy

KW - Simulation

KW - Flash plant

KW - Renewable energy

KW - Conversion plant

M3 - Article (Contribution to Journal)

SN - 1025-9929

SP - 205

EP - 222

JO - Revista Ingeniería Industrial (Universidad de Lima)

JF - Revista Ingeniería Industrial (Universidad de Lima)

IS - 41

ER -

Simulation of an advanced geothermal conversio plant in Peru

Resumen

Categoría OCDE

Categorías Repositorio Ulima

ODS de las Naciones Unidas

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