Volume 10, Issue 2 (Spring 2021)
Arch Hyg Sci 2021, 10(2): 97-110 |
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Hassanpour M. Technologies to Manage Used Automotive Oil Filters
in Iran: A Review Study. Arch Hyg Sci 2021; 10 (2) :97-110
URL: http://jhygiene.muq.ac.ir/article-1-491-en.html
URL: http://jhygiene.muq.ac.ir/article-1-491-en.html
DeDepartment of Environmental Science, University College of Science (UCS), Osmania University, Hyderabad, Telangana State, India.partment of Environmental Science, University College of Science (UCS), Osmania University, Hyderabad, Telangana State, India.
Abstract: (1107 Views)
Background & Aims of the Study: Given that modern society is a rapidly moving civilization,
the production of automobiles resulted in a massive quantity of Used Automotive Oil Filters
(UAOFs). So handling the waste stream secures value-added to the national assets and underpins
the demands in other sectors. The steel request is highly rising with the population growth,
and dismantling and recycling UAOFs produces enough scrap steel to be retrieved in similar
applications. Experts of this sector have forgotten this resource. The present review sought the
UAOF recycling technologies from the initial step of the project to the recent developments in
this area. Also, plasma technology application was addressed as the new technology posed and
noticed its modern procedure in the UAOF recycling operation based on the existing technologies.
Materials and Methods: In this review, the related articles were searched and studied using
key relevant words. Also, we used valuable existing references in this regard. The industrial
data employed in the present review refers to the project identification steps expressed and
investigated by evaluator teams in the Environmental Impact Assessment (EIA) plan.
Results: The collected results and concepts emphasized the redesign and reproduction of UAOF
and employing frequently recycled scrap parts in the steel manufacturing operation.
Conclusion: The plasma technology enhances the adhesion, wettability, electro-conductivity,
and many other characteristics of adsorbents within AOF and generates value-added products
and nano-metal oxides from scrap metals of UAOF
the production of automobiles resulted in a massive quantity of Used Automotive Oil Filters
(UAOFs). So handling the waste stream secures value-added to the national assets and underpins
the demands in other sectors. The steel request is highly rising with the population growth,
and dismantling and recycling UAOFs produces enough scrap steel to be retrieved in similar
applications. Experts of this sector have forgotten this resource. The present review sought the
UAOF recycling technologies from the initial step of the project to the recent developments in
this area. Also, plasma technology application was addressed as the new technology posed and
noticed its modern procedure in the UAOF recycling operation based on the existing technologies.
Materials and Methods: In this review, the related articles were searched and studied using
key relevant words. Also, we used valuable existing references in this regard. The industrial
data employed in the present review refers to the project identification steps expressed and
investigated by evaluator teams in the Environmental Impact Assessment (EIA) plan.
Results: The collected results and concepts emphasized the redesign and reproduction of UAOF
and employing frequently recycled scrap parts in the steel manufacturing operation.
Conclusion: The plasma technology enhances the adhesion, wettability, electro-conductivity,
and many other characteristics of adsorbents within AOF and generates value-added products
and nano-metal oxides from scrap metals of UAOF
Type of Study: Review Article |
Subject:
Environmental Health
Received: 2020/12/16 | Accepted: 2021/02/20 | Published: 2021/02/9
Received: 2020/12/16 | Accepted: 2021/02/20 | Published: 2021/02/9
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