Research Article

Incorporating a viable Renewable-energy System towards Industrial Effluent Treatment & Reuse: A Short Review

Authors

  • Abdeljalil Adam Laboratory of Biotechnology, Materials, and Environment, Faculty of Sciences, University IBN ZOHR, Agadir, Morocco
  • Nabil Saffaj Laboratory of Biotechnology, Materials, and Environment, Faculty of Sciences, University IBN ZOHR, Agadir, Morocco
  • Rachid Mamouni Laboratory of Biotechnology, Materials, and Environment, Faculty of Sciences, University IBN ZOHR, Agadir, Morocco

Abstract

In many regions throughout the continent, industries and farms struggle with low-quality water supplies. They threaten environmental health and the safety of drinking and industrial waterways. The regeneration of industrial effluents is modeled in detail in this study. Solar stills are designed to emulate natural evaporation, purifying effluent from industrial processes. This approach is best suited for small, off-grid structures that produce their own power from renewable sources and have a salinity effluent stream. Effluent recycling is a useful process that benefits both commercial and agricultural endeavors. Renewable power solutions that use concentrated sun electricity are reviewed in this paper. This study develops and evaluates a solar concentration system based on a parabolic reflector for water recycling and reuse that makes use of air-condensed water, solar stills, and salt effluent. Desalinating industrial effluent using only renewable energy is the goal of this research. This technique relies on research on how solar panels and collectors may enhance solar still processing.

Article information

Journal

British Journal of Environmental Studies

Volume (Issue)

2 (2)

Pages

20-23

Published

2022-11-06

How to Cite

Adam, A., Saffaj, N., & Mamouni, R. (2022). Incorporating a viable Renewable-energy System towards Industrial Effluent Treatment & Reuse: A Short Review. British Journal of Environmental Studies, 2(2), 20–23. https://doi.org/10.32996/bjes.2022.2.2.4

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Keywords:

Environment, industrial effluent, renewable energy, solar collectors