A systematic literature review on waste-to-resource potential of palm oil clinker for sustainable engineering and environmental applications

Aggregates; Bituminous coatings; Cement industry; Cement manufacture; Cements; Concrete aggregates; Cost engineering; Highway engineering; Soil mechanics; Stabilization; Sustainable development; Wastewater treatment; Degrees of effectiveness; Engineering applications; Environmental applications; Per...

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Main Authors: Jagaba A.H., Kutty S.R.M., Hayder G., Baloo L., Noor A., Yaro N.S.A., Saeed A.A.H., Lawal I.M., Birniwa A.H., Usman A.K.
Other Authors: 57191379686
Format: Review
Published: MDPI AG 2023
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spelling my.uniten.dspace-260492023-05-29T17:06:21Z A systematic literature review on waste-to-resource potential of palm oil clinker for sustainable engineering and environmental applications Jagaba A.H. Kutty S.R.M. Hayder G. Baloo L. Noor A. Yaro N.S.A. Saeed A.A.H. Lawal I.M. Birniwa A.H. Usman A.K. 57191379686 23486030000 56239664100 56771313500 57211133387 57201774278 57218381865 57214069157 57219667771 57209115791 Aggregates; Bituminous coatings; Cement industry; Cement manufacture; Cements; Concrete aggregates; Cost engineering; Highway engineering; Soil mechanics; Stabilization; Sustainable development; Wastewater treatment; Degrees of effectiveness; Engineering applications; Environmental applications; Performance enhancements; Steel manufacturing process; Sustainable engineering; Systematic literature review; Wastewater treatment process; Palm oil Several agro-waste materials have been utilized for sustainable engineering and environmental application over the past decades, showing different degrees of effectiveness. However, information concerning the wider use of palm oil clinker (POC) and its performance is still lacking. Therefore, as a solid waste byproduct produced in one of the oil palm processing stages, generating a huge quantity of waste mostly dumped into the landfill, the waste-to-resource potential of POC should be thoroughly discussed in a review. Thus, this paper provides a systematic review of the current research articles on the several advances made from 2005 to 2021 regarding palm oil clinker physical properties and performances, with a particular emphasis on their commitments to cost savings during environmental and engineering applications. The review begins by identifying the potential of POC application in conventional and geopolymer structural elements such as beams, slabs, and columns made of concrete, mortar, or paste for coarse aggregates, sand, and cement replacement. Aspects such as performance of POC in wastewater treatment processes, fine aggregate and cement replacement in asphaltic and bituminous mixtures during highway construction, a bio-filler in coatings for steel manufacturing processes, and a catalyst during energy generation are also discussed. This review further describes the effectiveness of POC in soil stabilization and the effect of POC pretreatment for performance enhancement. The present review can inspire researchers to find research gaps that will aid the sustainable use of agroindustry wastes. The fundamental knowledge contained in this review can also serve as a wake-up call for researchers that will motivate them to explore the high potential of utilizing POC for greater environmental benefits associated with less cost when compared with conventional materials. � 2021 by the authors. Licensee MDPI, Basel, Switzerland. Final 2023-05-29T09:06:21Z 2023-05-29T09:06:21Z 2021 Review 10.3390/ma14164456 2-s2.0-85112460519 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85112460519&doi=10.3390%2fma14164456&partnerID=40&md5=e45491db2f9b2ce60251e8f2273cd24b https://irepository.uniten.edu.my/handle/123456789/26049 14 16 4456 All Open Access, Gold, Green MDPI AG Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
description Aggregates; Bituminous coatings; Cement industry; Cement manufacture; Cements; Concrete aggregates; Cost engineering; Highway engineering; Soil mechanics; Stabilization; Sustainable development; Wastewater treatment; Degrees of effectiveness; Engineering applications; Environmental applications; Performance enhancements; Steel manufacturing process; Sustainable engineering; Systematic literature review; Wastewater treatment process; Palm oil
author2 57191379686
author_facet 57191379686
Jagaba A.H.
Kutty S.R.M.
Hayder G.
Baloo L.
Noor A.
Yaro N.S.A.
Saeed A.A.H.
Lawal I.M.
Birniwa A.H.
Usman A.K.
format Review
author Jagaba A.H.
Kutty S.R.M.
Hayder G.
Baloo L.
Noor A.
Yaro N.S.A.
Saeed A.A.H.
Lawal I.M.
Birniwa A.H.
Usman A.K.
spellingShingle Jagaba A.H.
Kutty S.R.M.
Hayder G.
Baloo L.
Noor A.
Yaro N.S.A.
Saeed A.A.H.
Lawal I.M.
Birniwa A.H.
Usman A.K.
A systematic literature review on waste-to-resource potential of palm oil clinker for sustainable engineering and environmental applications
author_sort Jagaba A.H.
title A systematic literature review on waste-to-resource potential of palm oil clinker for sustainable engineering and environmental applications
title_short A systematic literature review on waste-to-resource potential of palm oil clinker for sustainable engineering and environmental applications
title_full A systematic literature review on waste-to-resource potential of palm oil clinker for sustainable engineering and environmental applications
title_fullStr A systematic literature review on waste-to-resource potential of palm oil clinker for sustainable engineering and environmental applications
title_full_unstemmed A systematic literature review on waste-to-resource potential of palm oil clinker for sustainable engineering and environmental applications
title_sort systematic literature review on waste-to-resource potential of palm oil clinker for sustainable engineering and environmental applications
publisher MDPI AG
publishDate 2023
_version_ 1806423400795602944
score 13.214268