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Investigating the influence of plastic waste oils and acetone blends on diesel engine combustion, pollutants, morphological and size particles: Dehalogenation and catalytic pyrolysis of plastic waste

Most research into the treats of plastic wastes have concentrated mainly on single-exposure pathways or products. These practices fail to acknowledge that the complications of carbon particles from engines are produced not only by diesel but by any plastic oils due to the vast amount of contaminants...

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Main Authors: Yusuf, A.A., Ampah, J.D., Veza, I., Atabani, A.E., Hoang, A.T., Nippae, A., Powoe, M.T., Afrane, S., Yusuf, D.A., Yahuza, I.
Format: Article
Published: Elsevier Ltd 2023
Online Access:http://scholars.utp.edu.my/id/eprint/37388/
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85162223146&doi=10.1016%2fj.enconman.2023.117312&partnerID=40&md5=ec04277b8c9b6b3bb36a82fdb6793c35
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spelling oai:scholars.utp.edu.my:373882023-10-04T11:28:55Z http://scholars.utp.edu.my/id/eprint/37388/ Investigating the influence of plastic waste oils and acetone blends on diesel engine combustion, pollutants, morphological and size particles: Dehalogenation and catalytic pyrolysis of plastic waste Yusuf, A.A. Ampah, J.D. Veza, I. Atabani, A.E. Hoang, A.T. Nippae, A. Powoe, M.T. Afrane, S. Yusuf, D.A. Yahuza, I. Most research into the treats of plastic wastes have concentrated mainly on single-exposure pathways or products. These practices fail to acknowledge that the complications of carbon particles from engines are produced not only by diesel but by any plastic oils due to the vast amount of contaminants. With the potential to significantly weaken the impact of contaminants, the present study investigates the effects of dehalogenation and catalytic pyrolysis on plastic waste, as well as the risks associated with plastic oil blends on diesel engine. Different types of washing were conducted to effectively dehalogenate plastic waste. After pretreatment, odor compounds were analyzed using GC�MS. Subsequently, various types of pretreated plastic samples underwent catalytic pyrolysis with a 5:1 ratio of HDPE to Al2O3·2SiO2·2H2O. Differences in physico-chemical properties and hydrocarbon compounds of oils were determined. Experiments were performed using different fuel blends in a diesel engine under steady-state conditions, and their effects on combustion, emissions, morphology, and size particles were analyzed. The results show that sample B exhibited a lower toxicity level of 1,3-butadiene compared to other samples, while acetone and terpenes represented the second and third-highest emission levels in flakes, respectively. Sample C started to degrade at low temperatures (<300 °C) due to carbon addition from ethyl acetate solvent into the tertiary carbon chain of the flakes. DAP3 fuel achieved a higher reaction due to its degree of unsaturation and lower viscosity, resulting in the formation of smaller fuel droplets at high injection pressure and heat release rate (HRR). Higher emission levels were observed by DAP1 and D100, exceeding the Euro 5/6 standard limits. However, DAP3 fuel resulted in an average reduction of �17.14 and 21.86 in CO and smoke emissions, respectively, accompanied by a slight decrease in NOx and HC levels. Conversely, there were inconsistencies in the emission results observed with DAP2. Compared to D100, both DAP1 and DAP2 exhibited a significant accumulation and coarse particles in the PM10 forms at a peak of �83 nm. Whereas the DAP3 showed a smaller mobility Dp with a low nucleation particle peak, which was prone to absorb the unburned HC soot and later change to accumulation mode particles. © 2023 Elsevier Ltd Elsevier Ltd 2023 Article NonPeerReviewed Yusuf, A.A. and Ampah, J.D. and Veza, I. and Atabani, A.E. and Hoang, A.T. and Nippae, A. and Powoe, M.T. and Afrane, S. and Yusuf, D.A. and Yahuza, I. (2023) Investigating the influence of plastic waste oils and acetone blends on diesel engine combustion, pollutants, morphological and size particles: Dehalogenation and catalytic pyrolysis of plastic waste. Energy Conversion and Management, 291. ISSN 01968904 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85162223146&doi=10.1016%2fj.enconman.2023.117312&partnerID=40&md5=ec04277b8c9b6b3bb36a82fdb6793c35 10.1016/j.enconman.2023.117312 10.1016/j.enconman.2023.117312 10.1016/j.enconman.2023.117312
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Institutional Repository
url_provider http://eprints.utp.edu.my/
description Most research into the treats of plastic wastes have concentrated mainly on single-exposure pathways or products. These practices fail to acknowledge that the complications of carbon particles from engines are produced not only by diesel but by any plastic oils due to the vast amount of contaminants. With the potential to significantly weaken the impact of contaminants, the present study investigates the effects of dehalogenation and catalytic pyrolysis on plastic waste, as well as the risks associated with plastic oil blends on diesel engine. Different types of washing were conducted to effectively dehalogenate plastic waste. After pretreatment, odor compounds were analyzed using GC�MS. Subsequently, various types of pretreated plastic samples underwent catalytic pyrolysis with a 5:1 ratio of HDPE to Al2O3·2SiO2·2H2O. Differences in physico-chemical properties and hydrocarbon compounds of oils were determined. Experiments were performed using different fuel blends in a diesel engine under steady-state conditions, and their effects on combustion, emissions, morphology, and size particles were analyzed. The results show that sample B exhibited a lower toxicity level of 1,3-butadiene compared to other samples, while acetone and terpenes represented the second and third-highest emission levels in flakes, respectively. Sample C started to degrade at low temperatures (<300 °C) due to carbon addition from ethyl acetate solvent into the tertiary carbon chain of the flakes. DAP3 fuel achieved a higher reaction due to its degree of unsaturation and lower viscosity, resulting in the formation of smaller fuel droplets at high injection pressure and heat release rate (HRR). Higher emission levels were observed by DAP1 and D100, exceeding the Euro 5/6 standard limits. However, DAP3 fuel resulted in an average reduction of �17.14 and 21.86 in CO and smoke emissions, respectively, accompanied by a slight decrease in NOx and HC levels. Conversely, there were inconsistencies in the emission results observed with DAP2. Compared to D100, both DAP1 and DAP2 exhibited a significant accumulation and coarse particles in the PM10 forms at a peak of �83 nm. Whereas the DAP3 showed a smaller mobility Dp with a low nucleation particle peak, which was prone to absorb the unburned HC soot and later change to accumulation mode particles. © 2023 Elsevier Ltd
format Article
author Yusuf, A.A.
Ampah, J.D.
Veza, I.
Atabani, A.E.
Hoang, A.T.
Nippae, A.
Powoe, M.T.
Afrane, S.
Yusuf, D.A.
Yahuza, I.
spellingShingle Yusuf, A.A.
Ampah, J.D.
Veza, I.
Atabani, A.E.
Hoang, A.T.
Nippae, A.
Powoe, M.T.
Afrane, S.
Yusuf, D.A.
Yahuza, I.
Investigating the influence of plastic waste oils and acetone blends on diesel engine combustion, pollutants, morphological and size particles: Dehalogenation and catalytic pyrolysis of plastic waste
author_facet Yusuf, A.A.
Ampah, J.D.
Veza, I.
Atabani, A.E.
Hoang, A.T.
Nippae, A.
Powoe, M.T.
Afrane, S.
Yusuf, D.A.
Yahuza, I.
author_sort Yusuf, A.A.
title Investigating the influence of plastic waste oils and acetone blends on diesel engine combustion, pollutants, morphological and size particles: Dehalogenation and catalytic pyrolysis of plastic waste
title_short Investigating the influence of plastic waste oils and acetone blends on diesel engine combustion, pollutants, morphological and size particles: Dehalogenation and catalytic pyrolysis of plastic waste
title_full Investigating the influence of plastic waste oils and acetone blends on diesel engine combustion, pollutants, morphological and size particles: Dehalogenation and catalytic pyrolysis of plastic waste
title_fullStr Investigating the influence of plastic waste oils and acetone blends on diesel engine combustion, pollutants, morphological and size particles: Dehalogenation and catalytic pyrolysis of plastic waste
title_full_unstemmed Investigating the influence of plastic waste oils and acetone blends on diesel engine combustion, pollutants, morphological and size particles: Dehalogenation and catalytic pyrolysis of plastic waste
title_sort investigating the influence of plastic waste oils and acetone blends on diesel engine combustion, pollutants, morphological and size particles: dehalogenation and catalytic pyrolysis of plastic waste
publisher Elsevier Ltd
publishDate 2023
url http://scholars.utp.edu.my/id/eprint/37388/
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85162223146&doi=10.1016%2fj.enconman.2023.117312&partnerID=40&md5=ec04277b8c9b6b3bb36a82fdb6793c35
_version_ 1779441375324930048
score 13.214268

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