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Modeling of a Solar Thermal Plant to Produce Hot Water and Steam for a Brewery Factory

Author

Listed:
  • Kalo G. Traslosheros-Zavala

    (Renewable Energy Laboratory, Applied Physics Division, Centre for Scientific Research and Higher Education of Ensenada (CICESE), 3918 Ensenada-Tijuana Hwy., Ensenada 22860, BC, Mexico)

  • Ivett Zavala-Guillén

    (Renewable Energy Laboratory, Applied Physics Division, Centre for Scientific Research and Higher Education of Ensenada (CICESE), 3918 Ensenada-Tijuana Hwy., Ensenada 22860, BC, Mexico)

  • Alexis Acuña-Ramírez

    (Faculty of Engineering, Autonomous University of Baja California (UABC), Benito Juárez Boulevard, Mexicali 21280, BC, Mexico)

  • Manuel Cervantes-Astorga

    (Manufacturing Technologies Engineering, Polytechnic University of Baja California (UPBC), Claridad Avenue, Mexicali 21376, BC, Mexico)

  • Daniel Sauceda-Carvajal

    (Renewable Energy Laboratory, Applied Physics Division, Centre for Scientific Research and Higher Education of Ensenada (CICESE), 3918 Ensenada-Tijuana Hwy., Ensenada 22860, BC, Mexico)

  • Francisco J. Carranza-Chávez

    (Renewable Energy Laboratory, Applied Physics Division, Centre for Scientific Research and Higher Education of Ensenada (CICESE), 3918 Ensenada-Tijuana Hwy., Ensenada 22860, BC, Mexico
    National Council for Humanities, Sciences and Technologies (CONAHCYT), 1582 Insurgentes Sur Av., Benito Juárez, CDMX 03940, Mexico)

Abstract

The environmental impact caused by the intensive exploitation of fossil fuels to generate heat and electricity has already reached a critical level. Also, as the industrial sector is the largest energy consumer, mainly in the form of heat, it has then become compulsive to implement the use of renewable solar heat in industrial processes, such as those found in the food processing and beverages industries, which do not require high temperatures. Consequently, this study examines the viability of supplying heat as hot water at 80 °C and saturated steam at 160 °C to a medium-sized brewery factory through a hybrid solar plant composed of flat plate and parabolic trough collectors and sensible thermal energy storage. The study was conducted numerically using the meteorological conditions of a city different from that where the factory is located because it benefits from higher insolation levels. The mean annual solar fractions achieved were 49.9% for hot water production and 37.3% for steam generation, at a levelized cost of heat of 0.032 USD/kWh, which can be considered competitive if compared against the values reported in other similar solar projects. Also, the decrease in fossil fuel consumption allowed an annual reduction of 252 tons of carbon dioxide emissions.

Suggested Citation

  • Kalo G. Traslosheros-Zavala & Ivett Zavala-Guillén & Alexis Acuña-Ramírez & Manuel Cervantes-Astorga & Daniel Sauceda-Carvajal & Francisco J. Carranza-Chávez, 2024. "Modeling of a Solar Thermal Plant to Produce Hot Water and Steam for a Brewery Factory," Energies, MDPI, vol. 17(10), pages 1-21, May.
    • Handle: RePEc:gam:jeners:v:17:y:2024:i:10:p:2300-:d:1391862
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    References listed on IDEAS

    as
    1. Zheng, J. & Febrer, R. & Castro, J. & Kizildag, D. & Rigola, J., 2024. "A new high-performance flat plate solar collector. Numerical modelling and experimental validation," Applied Energy, Elsevier, vol. 355(C).
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