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Carbon footprints calculator of highway pavement rehabilitation: the quantification of carbon emissions per unit activity

Carbon dioxide that emitted throughout the construction lifespan is crucial from development of design, construction, up to demolition stage. Focusing in the rehabilitation of highway pavement, the activities that normally involved are from milling, roller up to dumping the wastes asphalts. The aim...

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Main Authors: Che Wahid, C. M. F. H., Aminudin, E., Abd. Majid, M. Z., Hainin, M. R., Mohd. Satar, M. K. I., Mohd. Warid, M. N., Zakaria, R., Ramli, M. R., Zin, R. M., Noor, Z. Z., Mazlan, A. N., Yousif, O. S., Neardey, M., Jais, A. M., Abdullah, R., Mohd. Yazid, Y. S., Ahmad, N. F.
Format: Conference or Workshop Item
Language:English
Published: 2019
Subjects:
TA Engineering (General). Civil engineering (General)
Online Access:http://eprints.utm.my/id/eprint/89134/1/YazlinSalfizaYazid2019_CarbonFootprintsCalculatorofHighwayPavement.pdf
http://eprints.utm.my/id/eprint/89134/
https://dx.doi.org/10.1088/1757-899X/512/1/012010
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spelling my.utm.891342021-01-26T08:44:56Z http://eprints.utm.my/id/eprint/89134/ Carbon footprints calculator of highway pavement rehabilitation: the quantification of carbon emissions per unit activity Che Wahid, C. M. F. H. Aminudin, E. Abd. Majid, M. Z. Hainin, M. R. Mohd. Satar, M. K. I. Mohd. Warid, M. N. Zakaria, R. Ramli, M. R. Zin, R. M. Noor, Z. Z. Mazlan, A. N. Yousif, O. S. Neardey, M. Jais, A. M. Abdullah, R. Mohd. Yazid, Y. S. Ahmad, N. F. TA Engineering (General). Civil engineering (General) Carbon dioxide that emitted throughout the construction lifespan is crucial from development of design, construction, up to demolition stage. Focusing in the rehabilitation of highway pavement, the activities that normally involved are from milling, roller up to dumping the wastes asphalts. The aim of this paper is to estimate the carbon footprint emission in unit of tonnes for carbon dioxide equivalents (t CO2-eq/km-lane). The case study involved based on five selected projects for north-south bound expressway of Malaysia. The results show that highest carbon footprint were from the Mill and Pave 250 mm (MP 250) with 117.94 t CO2-eq/km-lane. This is due to its depth of pavement with 140 mm dense bituminous macadam, 60 mm asphalt concrete base course and 50 mm asphalt concrete wearing course as compared as other Mill and Pave. The result followed by MP 200, MP 110 and MP 50 at 95.19, 54.10, and 27.37 t CO2-eq/km-lane respectively. The critical activities involved during the construction shows the asphalt concrete production as the highest generation of emission with 53.78 t CO2-eq/km-lane, followed by lorry transportation of asphalt waste, lorry transportation of asphalt concrete, fuel consumption from machineries, neomed coat, and water consumption with the value of 28.58, 24.50, 10.83, 0.23, and 0.01 t CO2-eq/km-lane respectively. The results from this study considered as references guidelines for carbon footprint calculator to calculate emission as compared to other expressway in Malaysia. 2019 Conference or Workshop Item PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/89134/1/YazlinSalfizaYazid2019_CarbonFootprintsCalculatorofHighwayPavement.pdf Che Wahid, C. M. F. H. and Aminudin, E. and Abd. Majid, M. Z. and Hainin, M. R. and Mohd. Satar, M. K. I. and Mohd. Warid, M. N. and Zakaria, R. and Ramli, M. R. and Zin, R. M. and Noor, Z. Z. and Mazlan, A. N. and Yousif, O. S. and Neardey, M. and Jais, A. M. and Abdullah, R. and Mohd. Yazid, Y. S. and Ahmad, N. F. (2019) Carbon footprints calculator of highway pavement rehabilitation: the quantification of carbon emissions per unit activity. In: 10th Malaysian Road Conference and Exhibition 2018, 29-31 October 2018, Sunway Pyramid Convention Centre Petaling Jaya, Selangor, Malaysia. https://dx.doi.org/10.1088/1757-899X/512/1/012010
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
language English
topic TA Engineering (General). Civil engineering (General)
spellingShingle TA Engineering (General). Civil engineering (General)
Che Wahid, C. M. F. H.
Aminudin, E.
Abd. Majid, M. Z.
Hainin, M. R.
Mohd. Satar, M. K. I.
Mohd. Warid, M. N.
Zakaria, R.
Ramli, M. R.
Zin, R. M.
Noor, Z. Z.
Mazlan, A. N.
Yousif, O. S.
Neardey, M.
Jais, A. M.
Abdullah, R.
Mohd. Yazid, Y. S.
Ahmad, N. F.
Carbon footprints calculator of highway pavement rehabilitation: the quantification of carbon emissions per unit activity
description Carbon dioxide that emitted throughout the construction lifespan is crucial from development of design, construction, up to demolition stage. Focusing in the rehabilitation of highway pavement, the activities that normally involved are from milling, roller up to dumping the wastes asphalts. The aim of this paper is to estimate the carbon footprint emission in unit of tonnes for carbon dioxide equivalents (t CO2-eq/km-lane). The case study involved based on five selected projects for north-south bound expressway of Malaysia. The results show that highest carbon footprint were from the Mill and Pave 250 mm (MP 250) with 117.94 t CO2-eq/km-lane. This is due to its depth of pavement with 140 mm dense bituminous macadam, 60 mm asphalt concrete base course and 50 mm asphalt concrete wearing course as compared as other Mill and Pave. The result followed by MP 200, MP 110 and MP 50 at 95.19, 54.10, and 27.37 t CO2-eq/km-lane respectively. The critical activities involved during the construction shows the asphalt concrete production as the highest generation of emission with 53.78 t CO2-eq/km-lane, followed by lorry transportation of asphalt waste, lorry transportation of asphalt concrete, fuel consumption from machineries, neomed coat, and water consumption with the value of 28.58, 24.50, 10.83, 0.23, and 0.01 t CO2-eq/km-lane respectively. The results from this study considered as references guidelines for carbon footprint calculator to calculate emission as compared to other expressway in Malaysia.
format Conference or Workshop Item
author Che Wahid, C. M. F. H.
Aminudin, E.
Abd. Majid, M. Z.
Hainin, M. R.
Mohd. Satar, M. K. I.
Mohd. Warid, M. N.
Zakaria, R.
Ramli, M. R.
Zin, R. M.
Noor, Z. Z.
Mazlan, A. N.
Yousif, O. S.
Neardey, M.
Jais, A. M.
Abdullah, R.
Mohd. Yazid, Y. S.
Ahmad, N. F.
author_facet Che Wahid, C. M. F. H.
Aminudin, E.
Abd. Majid, M. Z.
Hainin, M. R.
Mohd. Satar, M. K. I.
Mohd. Warid, M. N.
Zakaria, R.
Ramli, M. R.
Zin, R. M.
Noor, Z. Z.
Mazlan, A. N.
Yousif, O. S.
Neardey, M.
Jais, A. M.
Abdullah, R.
Mohd. Yazid, Y. S.
Ahmad, N. F.
author_sort Che Wahid, C. M. F. H.
title Carbon footprints calculator of highway pavement rehabilitation: the quantification of carbon emissions per unit activity
title_short Carbon footprints calculator of highway pavement rehabilitation: the quantification of carbon emissions per unit activity
title_full Carbon footprints calculator of highway pavement rehabilitation: the quantification of carbon emissions per unit activity
title_fullStr Carbon footprints calculator of highway pavement rehabilitation: the quantification of carbon emissions per unit activity
title_full_unstemmed Carbon footprints calculator of highway pavement rehabilitation: the quantification of carbon emissions per unit activity
title_sort carbon footprints calculator of highway pavement rehabilitation: the quantification of carbon emissions per unit activity
publishDate 2019
url http://eprints.utm.my/id/eprint/89134/1/YazlinSalfizaYazid2019_CarbonFootprintsCalculatorofHighwayPavement.pdf
http://eprints.utm.my/id/eprint/89134/
https://dx.doi.org/10.1088/1757-899X/512/1/012010
_version_ 1690370975344885760
score 13.15806

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