Formulation of emulsified modified bitumen from industrial waste

Bitumen is normally produced from crude oil that is extracted from the ground which makes bitumen one of the non-renewable forms of product. Bitumen is used mainly in road paving, roofing application, road construction, waterproofing products, building materials, and industrial coatings. It is estim...

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Main Authors: Mohd Najib, Razali, Syarifah Nur Ezatie, Mohd Isa, Noor Adilah, Md Salehan, Musfafikri, Musa, Mohd Aizudin, Abd Aziz, Nour, A. H., R. M., Yunus
Format: Conference or Workshop Item
Language:English
English
Published: 2018
Subjects:
Online Access:http://umpir.ump.edu.my/id/eprint/21343/
http://umpir.ump.edu.my/id/eprint/21343/1/60.%20Formulation%20of%20emulsified%20modified%20bitumen%20from%20industrial%20waste.pdf
http://umpir.ump.edu.my/id/eprint/21343/7/60.1%20Formulation%20of%20emulsified%20modified%20bitumen%20from%20industrial%20waste.pdf
id ump-21343
recordtype eprints
repository_type Digital Repository
institution_category Local University
institution Universiti Malaysia Pahang
building UMP Institutional Repository
collection Online Access
language English
English
topic TP Chemical technology
spellingShingle TP Chemical technology
Mohd Najib, Razali
Syarifah Nur Ezatie, Mohd Isa
Noor Adilah, Md Salehan
Musfafikri, Musa
Mohd Aizudin, Abd Aziz
Nour, A. H.
R. M., Yunus
Formulation of emulsified modified bitumen from industrial waste
description Bitumen is normally produced from crude oil that is extracted from the ground which makes bitumen one of the non-renewable forms of product. Bitumen is used mainly in road paving, roofing application, road construction, waterproofing products, building materials, and industrial coatings. It is estimated that the current world consumption of bitumen is 102 million tonnes per year, where 85% of bitumen are used as binder for pavements, 10% for roofing application, and the rest are used for various purposes (Asphalt Institute and Eurobitume, 2011).A vast environmental problem issues arises in Malaysia cause by the excessive manufacturing activity that lead to a miss-management of industrial waste has leads to the used of industrial waste in the Emulsified Modified Bitumen (EMB) formulation. Industrial waste such as polystyrene, polyethylene and used automotive oil can be used as alternative to formulate bitumen. Then a suitable emulsifier needs to be added to produce the final product which is EMB. Then the modified bitumen will be emulsified by using four difference type of emulsifier which are abietic acid, ammonium salt, alcohol ethoxylation and alkyltrimethylenediamine. The emulsifier will yield a charge depends on its properties to bind the oily bitumen with water. Physical characteristic studies were performed by thermogravimetric Analysis (TGA), differential scanning calorimetry (DSC), flash point test, density rest and moisture content test. Fourier Transform Infrared Spectroscopy (FTIR) analysis was measured to determine the material’s molecular composition and structure. As the result from TGA, the high density polyethylene 1 (HDPE 1) was 0.3235% degraded at lower than 200 °C, 98.17% at 402.9 °C, and 1.510% at 900 °C. Whereas, the high density polyethylene 2 (HDPE 2) had 0.0852% of its components degraded at lower than 200 °C, 97.33% at 402.9 °C, and 2.606% at 900 °C. Polystyrene sample, with 0.4476% of its components degraded at lower than 200 °C, 97.16% at 402.9 °C, and 2.355% at 900 °C. From DSC analysis, samples of HDPE 1 and 2 showed approximately the same trend, which deviated from the polystyrene sample. This was because both HDPE 1 and 2 came from the same group of polymer. Amongst the three samples, none of them showed significant resonances around 3450 cm-1 from FTIR analysis, then, it can be said that the water contents in all these samples were negligeable. The key parameters for the mixing process are ratios of raw materials from industrial waste, temperature, time and speed of the mixer. Eight samples (details listed in table 2) of EMB were formulated and the best three (B, F, H) amongst it was chose for performance analysis. The result shows bitumen formulated has the same grade of penetration value with EMB industry grade which are B (40/60), F (60/70) and H ( 200/30). Bitumen H (200/300) then was choosing for the emulsification process where an emulsifier was added to mix bitumen with water. This sample was then being compared with bitumen emulsion grade 80/100 from industry. In short, EMB formulated shows a better physical and chemical properties than EMB from industry.
format Conference or Workshop Item
author Mohd Najib, Razali
Syarifah Nur Ezatie, Mohd Isa
Noor Adilah, Md Salehan
Musfafikri, Musa
Mohd Aizudin, Abd Aziz
Nour, A. H.
R. M., Yunus
author_facet Mohd Najib, Razali
Syarifah Nur Ezatie, Mohd Isa
Noor Adilah, Md Salehan
Musfafikri, Musa
Mohd Aizudin, Abd Aziz
Nour, A. H.
R. M., Yunus
author_sort Mohd Najib, Razali
title Formulation of emulsified modified bitumen from industrial waste
title_short Formulation of emulsified modified bitumen from industrial waste
title_full Formulation of emulsified modified bitumen from industrial waste
title_fullStr Formulation of emulsified modified bitumen from industrial waste
title_full_unstemmed Formulation of emulsified modified bitumen from industrial waste
title_sort formulation of emulsified modified bitumen from industrial waste
publishDate 2018
url http://umpir.ump.edu.my/id/eprint/21343/
http://umpir.ump.edu.my/id/eprint/21343/1/60.%20Formulation%20of%20emulsified%20modified%20bitumen%20from%20industrial%20waste.pdf
http://umpir.ump.edu.my/id/eprint/21343/7/60.1%20Formulation%20of%20emulsified%20modified%20bitumen%20from%20industrial%20waste.pdf
first_indexed 2023-09-18T22:31:16Z
last_indexed 2023-09-18T22:31:16Z
_version_ 1777416301813170176
spelling ump-213432018-09-20T03:33:32Z http://umpir.ump.edu.my/id/eprint/21343/ Formulation of emulsified modified bitumen from industrial waste Mohd Najib, Razali Syarifah Nur Ezatie, Mohd Isa Noor Adilah, Md Salehan Musfafikri, Musa Mohd Aizudin, Abd Aziz Nour, A. H. R. M., Yunus TP Chemical technology Bitumen is normally produced from crude oil that is extracted from the ground which makes bitumen one of the non-renewable forms of product. Bitumen is used mainly in road paving, roofing application, road construction, waterproofing products, building materials, and industrial coatings. It is estimated that the current world consumption of bitumen is 102 million tonnes per year, where 85% of bitumen are used as binder for pavements, 10% for roofing application, and the rest are used for various purposes (Asphalt Institute and Eurobitume, 2011).A vast environmental problem issues arises in Malaysia cause by the excessive manufacturing activity that lead to a miss-management of industrial waste has leads to the used of industrial waste in the Emulsified Modified Bitumen (EMB) formulation. Industrial waste such as polystyrene, polyethylene and used automotive oil can be used as alternative to formulate bitumen. Then a suitable emulsifier needs to be added to produce the final product which is EMB. Then the modified bitumen will be emulsified by using four difference type of emulsifier which are abietic acid, ammonium salt, alcohol ethoxylation and alkyltrimethylenediamine. The emulsifier will yield a charge depends on its properties to bind the oily bitumen with water. Physical characteristic studies were performed by thermogravimetric Analysis (TGA), differential scanning calorimetry (DSC), flash point test, density rest and moisture content test. Fourier Transform Infrared Spectroscopy (FTIR) analysis was measured to determine the material’s molecular composition and structure. As the result from TGA, the high density polyethylene 1 (HDPE 1) was 0.3235% degraded at lower than 200 °C, 98.17% at 402.9 °C, and 1.510% at 900 °C. Whereas, the high density polyethylene 2 (HDPE 2) had 0.0852% of its components degraded at lower than 200 °C, 97.33% at 402.9 °C, and 2.606% at 900 °C. Polystyrene sample, with 0.4476% of its components degraded at lower than 200 °C, 97.16% at 402.9 °C, and 2.355% at 900 °C. From DSC analysis, samples of HDPE 1 and 2 showed approximately the same trend, which deviated from the polystyrene sample. This was because both HDPE 1 and 2 came from the same group of polymer. Amongst the three samples, none of them showed significant resonances around 3450 cm-1 from FTIR analysis, then, it can be said that the water contents in all these samples were negligeable. The key parameters for the mixing process are ratios of raw materials from industrial waste, temperature, time and speed of the mixer. Eight samples (details listed in table 2) of EMB were formulated and the best three (B, F, H) amongst it was chose for performance analysis. The result shows bitumen formulated has the same grade of penetration value with EMB industry grade which are B (40/60), F (60/70) and H ( 200/30). Bitumen H (200/300) then was choosing for the emulsification process where an emulsifier was added to mix bitumen with water. This sample was then being compared with bitumen emulsion grade 80/100 from industry. In short, EMB formulated shows a better physical and chemical properties than EMB from industry. 2018 Conference or Workshop Item NonPeerReviewed pdf en http://umpir.ump.edu.my/id/eprint/21343/1/60.%20Formulation%20of%20emulsified%20modified%20bitumen%20from%20industrial%20waste.pdf pdf en http://umpir.ump.edu.my/id/eprint/21343/7/60.1%20Formulation%20of%20emulsified%20modified%20bitumen%20from%20industrial%20waste.pdf Mohd Najib, Razali and Syarifah Nur Ezatie, Mohd Isa and Noor Adilah, Md Salehan and Musfafikri, Musa and Mohd Aizudin, Abd Aziz and Nour, A. H. and R. M., Yunus (2018) Formulation of emulsified modified bitumen from industrial waste. In: 4th International Conference Of Chemical Engineering And Industrial Biotechnology (ICCEIB 2018), 1-2 Aug 2018 , Seri Pacific Hotel, Kuala Lumpur. pp. 1-3.. (Unpublished)