Modelling of a solar heat for industrial process (ship) system using fresnel collectors

  1. David Hernández, Marco Antonio
  2. Cazorla Marín, Antonio
  3. Gonzálvez- Maciá, José
  4. Payá Herrero, Jorge
  5. Gonzálvez Maciá
Libro:
Libro de actas XI Congreso Ibérico y IX Congreso Iberoamericano de Ciencias y Técnicas del Frío Cytef2022: Avances en Ciencias y Técnicas del Frío - 11. Cartagena, España, 17-19 abril, 2022
  1. Antonio López Gómez (dir. congr.)
  2. José Ramón García Cascales (dir. congr.)
  3. Ginés Benito Martínez Hernández (dir. congr.)
  4. Arturo Esnoz Nicuesa (dir. congr.)
  5. Asunción Iguaz Gainza (dir. congr.)
  6. Fernando Illán Gómez (dir. congr.)
  7. Francisco Javier Sánchez Velasco (dir. congr.)
  8. José Pablo Delgado Marín (dir. congr.)
  9. Ramón Antonio Otón Martínez (dir. congr.)

Editorial: Universidad Politécnica de Cartagena

ISBN: 978-84-17853-55-6

Ano de publicación: 2022

Páxinas: 450-455

Tipo: Capítulo de libro

Resumo

The Solar Heat for Industrial Process (SHIP) systems has been pushed forward in recent years as an option to achieve the goal of decarbonizing the industrial sector. In this way, it is possible to partially cover the heat necessities from the industry with these systems and then save fuel consumption. Fresnel solar energy concentrators have proved to be a state-of-the-art technology to be implemented for heat generation in SHIP systems. In this work, a quasi-dynamic model for the simulation of operation and performance of a SHIP system with Fresnel collectors solar field and the dynamics and inertia of a kettle reboiler has been developed. The preliminary validation of the model has been performed using experimental data obtained from the SOLPINVAP experimental plant in Almazora, Spain.