Eduardo González-Mora

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Eduardo González-Mora

PhD

Curriculum vitae

Ingeniería en Sistemas Energéticos Sustentables

Facultad de Ingeniería. UAEMéx

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ANÁLISE 2E DE UM SISTEMA SOLAR PARA O TRATAMENTO DE ÁGUA UTILIZANDO ÓPTICA ANIDÓLICA

Book chapter

Eduardo González-Mora, Eduardo A. Rincón-Mejía
Jaqueline Resendi Olivera, A Importância da Energia Solar para o Desenvolvimento Sustentável, chapter 5, 1st ed., Atena Editora, Ponta Grossa, 2019 Sep, pp. 50--63
DOI: 10.22533/at.ed.0031903095
Cite

Cite

APA   Click to copy
González-Mora, E., & Rincón-Mejía, E. A. (2019). ANÁLISE 2E DE UM SISTEMA SOLAR PARA O TRATAMENTO DE ÁGUA UTILIZANDO ÓPTICA ANIDÓLICA. In J. Resendi Olivera (Ed.), A Importância da Energia Solar para o Desenvolvimento Sustentável (1st ed., pp. 50–63). Ponta Grossa: Atena Editora. https://doi.org/10.22533/at.ed.0031903095

Chicago/Turabian   Click to copy
González-Mora, Eduardo, and Eduardo A. Rincón-Mejía. “ANÁLISE 2E DE UM SISTEMA SOLAR PARA O TRATAMENTO DE ÁGUA UTILIZANDO ÓPTICA ANIDÓLICA.” In A Importância Da Energia Solar Para o Desenvolvimento Sustentável, edited by Jaqueline Resendi Olivera, 50–63. 1st ed. Ponta Grossa: Atena Editora, 2019.

MLA   Click to copy
González-Mora, Eduardo, and Eduardo A. Rincón-Mejía. “ANÁLISE 2E DE UM SISTEMA SOLAR PARA O TRATAMENTO DE ÁGUA UTILIZANDO ÓPTICA ANIDÓLICA.” A Importância Da Energia Solar Para o Desenvolvimento Sustentável, edited by Jaqueline Resendi Olivera, 1st ed., Atena Editora, 2019, pp. 50–63, doi:10.22533/at.ed.0031903095.

BibTeX   Click to copy 

@incollection{gonz2019a,
  title = {ANÁLISE 2E DE UM SISTEMA SOLAR PARA O TRATAMENTO DE ÁGUA UTILIZANDO ÓPTICA ANIDÓLICA},
  year = {2019},
  month = sep,
  address = {Ponta Grossa},
  chapter = {5},
  edition = {1},
  pages = {50--63},
  publisher = {Atena Editora},
  doi = {10.22533/at.ed.0031903095},
  author = {González-Mora, Eduardo and Rincón-Mejía, Eduardo A.},
  editor = {Resendi Olivera, Jaqueline},
  booktitle = {A Importância da Energia Solar para o Desenvolvimento Sustentável},
  month_numeric = {9}
}

Abstract

The 2E analysis (energy and exergy) and the design methodology for a nonimaging optics CPC-type (Compound Parabolic Collector) solar concentrator that, using only solar radiation, achieves a tertiary treatment in waste water containing organic waste coming from an anaerobic biodigester. For its design, existing models based on analytical geometry and vector calculation were used to calculate the reflective surface. The design of the water treatment system consists, as in the original Tolokatsin solar ovens, in an optimally truncated CPC with a circular receiver to maximize the operating time, the concentrated irradiance and optimize the use of materials. To determine the thermal performance 2E of the water treatment system, heat flows in the system were calculated, with relevant models, considering the city of Toluca, Mexico, as a reference for the irradiance conditions. The exposed work comprises only one element of a hybrid system of the waste treatment train that allows to recycle all the waste, which then becomes a valuable and usable resource.
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