Sustainable Energy Recovery From the Malaysian Coal Bottom Ash and the Effects of Fineness in Improving Concrete Properties

Coal; Coal combustion; Curing; Economic analysis; Metal recovery; Particle size; Particle size analysis; Scanning electron microscopy; Silicates; Slags; Tensile strength; Bottom ash; Coal bottom ash; Concrete strentgh property; Economical optimization; Engineering properties; Optimisations; Physicoc...

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Main Authors: Beddu S., Abd Manan T.S.B., Mohamed Nazri F., Kamal N.L.M., Mohamad D., Itam Z., Ahmad M.
Other Authors: 55812080500
Format: Article
Published: Frontiers Media S.A. 2023
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spelling my.uniten.dspace-267122023-05-29T17:36:17Z Sustainable Energy Recovery From the Malaysian Coal Bottom Ash and the Effects of Fineness in Improving Concrete Properties Beddu S. Abd Manan T.S.B. Mohamed Nazri F. Kamal N.L.M. Mohamad D. Itam Z. Ahmad M. 55812080500 57219650719 55195912500 57217168441 57200335404 55102723400 57200824716 Coal; Coal combustion; Curing; Economic analysis; Metal recovery; Particle size; Particle size analysis; Scanning electron microscopy; Silicates; Slags; Tensile strength; Bottom ash; Coal bottom ash; Concrete strentgh property; Economical optimization; Engineering properties; Optimisations; Physicochemical property; Property; Scanning electrons; Splitting-tensile strengths; Compressive strength The particle size (�m) of coal bottom ash displayed significant effects on the concrete engineering properties. This research aims to assess the improvement of engineering properties of concrete containing CBA (fineness: 75 and 100��m) known as Mix 75 and Mix 100, and to optimize the percentage of coal bottom ash as supplementary cement materials in concrete. The physicochemical properties of coal bottom ash were analyzed using X-ray fluorescence, X-ray diffraction, particle size distribution (PSD), and a scanning electron microscope. The strength of concrete was determined based on workability and compressive and splitting tensile strengths. The concrete strength improvement was optimized by response surface methodology. The results of the study showed that coal bottom ash was rich in silicates based on the highest peak at 45�. The scanning electron microscope images showed that coal bottom ash has few cenospheres and components of irregular-shaped char particles. The splitting tensile strengths in 28 curing days gradually decreased with an increase in coal bottom ash. The optimal percentage of coal bottom ash in Mix 75 is equivalent to 6% within 45.4 curing days producing 40�MPa of compressive strength. Meanwhile, the optimal percentage of CBA in Mix 100 is equivalent to 12% within 56 curing days producing 50�MPa of compressive strength. The future works needed to extend the experimental observations are the economic analysis and effect of the greenhouse reduction on the usage of CBA in building infrastructure. Copyright � 2022 Beddu, Abd Manan, Mohamed Nazri, Kamal, Mohamad, Itam and Ahmad. Final 2023-05-29T09:36:17Z 2023-05-29T09:36:17Z 2022 Article 10.3389/fenrg.2022.940883 2-s2.0-85140293566 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85140293566&doi=10.3389%2ffenrg.2022.940883&partnerID=40&md5=ed920e46a381b52e60fcae2cf599dd7e https://irepository.uniten.edu.my/handle/123456789/26712 10 940883 All Open Access, Gold Frontiers Media S.A. 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 Coal; Coal combustion; Curing; Economic analysis; Metal recovery; Particle size; Particle size analysis; Scanning electron microscopy; Silicates; Slags; Tensile strength; Bottom ash; Coal bottom ash; Concrete strentgh property; Economical optimization; Engineering properties; Optimisations; Physicochemical property; Property; Scanning electrons; Splitting-tensile strengths; Compressive strength
author2 55812080500
author_facet 55812080500
Beddu S.
Abd Manan T.S.B.
Mohamed Nazri F.
Kamal N.L.M.
Mohamad D.
Itam Z.
Ahmad M.
format Article
author Beddu S.
Abd Manan T.S.B.
Mohamed Nazri F.
Kamal N.L.M.
Mohamad D.
Itam Z.
Ahmad M.
spellingShingle Beddu S.
Abd Manan T.S.B.
Mohamed Nazri F.
Kamal N.L.M.
Mohamad D.
Itam Z.
Ahmad M.
Sustainable Energy Recovery From the Malaysian Coal Bottom Ash and the Effects of Fineness in Improving Concrete Properties
author_sort Beddu S.
title Sustainable Energy Recovery From the Malaysian Coal Bottom Ash and the Effects of Fineness in Improving Concrete Properties
title_short Sustainable Energy Recovery From the Malaysian Coal Bottom Ash and the Effects of Fineness in Improving Concrete Properties
title_full Sustainable Energy Recovery From the Malaysian Coal Bottom Ash and the Effects of Fineness in Improving Concrete Properties
title_fullStr Sustainable Energy Recovery From the Malaysian Coal Bottom Ash and the Effects of Fineness in Improving Concrete Properties
title_full_unstemmed Sustainable Energy Recovery From the Malaysian Coal Bottom Ash and the Effects of Fineness in Improving Concrete Properties
title_sort sustainable energy recovery from the malaysian coal bottom ash and the effects of fineness in improving concrete properties
publisher Frontiers Media S.A.
publishDate 2023
_version_ 1806427414179348480
score 13.214268