Energy balance and life cycle assessments in producing microalgae biodiesel via a continuous microalgal-bacterial photobioreactor loaded with wastewater

Energy balance and life cycle assessments in producing microalgae biodiesel via a continuous microalgal-bacterial photobioreactor loaded with wastewater

Life cycle assessments of microalgal cultivation systems are often conducted to evaluate the sustainability and feasibility factors of the entire production chain. Unlike widely reported conventional microalgal cultivation systems, the present work adopted a microalgal-bacterial cultivation approach...

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Main Authors: Leong, W.H., Lim, J.W., Rawindran, H., Liew, C.S., Lam, M.K., Ho, Y.C., Khoo, K.S., Kusakabe, K., Abdelghani, H.T.M., Ho, C.-D., Ng, H.-S., Usman, A., Kang, H.-S.
Format: Article
Published: Elsevier Ltd 2023
Online Access:http://scholars.utp.edu.my/id/eprint/37297/
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85168831027&doi=10.1016%2fj.chemosphere.2023.139953&partnerID=40&md5=49214820e0abe4e8b5aac5775b856b40
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spelling oai:scholars.utp.edu.my:372972023-10-04T08:37:19Z http://scholars.utp.edu.my/id/eprint/37297/ Energy balance and life cycle assessments in producing microalgae biodiesel via a continuous microalgal-bacterial photobioreactor loaded with wastewater Leong, W.H. Lim, J.W. Rawindran, H. Liew, C.S. Lam, M.K. Ho, Y.C. Khoo, K.S. Kusakabe, K. Abdelghani, H.T.M. Ho, C.-D. Ng, H.-S. Usman, A. Kang, H.-S. Life cycle assessments of microalgal cultivation systems are often conducted to evaluate the sustainability and feasibility factors of the entire production chain. Unlike widely reported conventional microalgal cultivation systems, the present work adopted a microalgal-bacterial cultivation approach which was upscaled into a pilot-scale continuous photobioreactor for microalgal biomass production into biodiesel from wastewater resources. A multiple cradle-to-cradle system ranging from microalgal biomass-to-lipid-to-biodiesel was evaluated to provide insights into the energy demand of each processes making up the microalgae-to-biodiesel value chain system. Energy feasibility studies revealed positive NER values (4.95�8.38) for producing microalgal biomass but deficit values for microalgal-to-biodiesel (0.14�0.23), stemming from the high energy input requirements in the downstream processes for converting biomass into lipid and biodiesel accounting to 88�90 of the cumulative energy demand. Although the energy balance for microalgae-to-biodiesel is in the deficits, it is comparable with other reported biodiesel production case studies (0.12�0.40). Nevertheless, the approach to using microalgal-bacterial cultivation system has improved the overall energy efficiency especially in the upstream processes compared to conventional microalgal cultivation systems. Energy life cycle assessments with other microalgal based biofuel systems also proposed effective measures in increasing the energy feasibility either by utilizing the residual biomass and less energy demanding downstream extraction processes from microalgal biomass. The microalgal-bacterial cultivation system is anticipated to offer both environmental and economic prospects for upscaling by effectively exploiting the low-cost nutrients from wastewaters via bioconversion into valuable microalgal biomass and biodiesel. © 2023 Elsevier Ltd Elsevier Ltd 2023 Article NonPeerReviewed Leong, W.H. and Lim, J.W. and Rawindran, H. and Liew, C.S. and Lam, M.K. and Ho, Y.C. and Khoo, K.S. and Kusakabe, K. and Abdelghani, H.T.M. and Ho, C.-D. and Ng, H.-S. and Usman, A. and Kang, H.-S. (2023) Energy balance and life cycle assessments in producing microalgae biodiesel via a continuous microalgal-bacterial photobioreactor loaded with wastewater. Chemosphere, 341. ISSN 00456535 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85168831027&doi=10.1016%2fj.chemosphere.2023.139953&partnerID=40&md5=49214820e0abe4e8b5aac5775b856b40 10.1016/j.chemosphere.2023.139953 10.1016/j.chemosphere.2023.139953 10.1016/j.chemosphere.2023.139953
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 Life cycle assessments of microalgal cultivation systems are often conducted to evaluate the sustainability and feasibility factors of the entire production chain. Unlike widely reported conventional microalgal cultivation systems, the present work adopted a microalgal-bacterial cultivation approach which was upscaled into a pilot-scale continuous photobioreactor for microalgal biomass production into biodiesel from wastewater resources. A multiple cradle-to-cradle system ranging from microalgal biomass-to-lipid-to-biodiesel was evaluated to provide insights into the energy demand of each processes making up the microalgae-to-biodiesel value chain system. Energy feasibility studies revealed positive NER values (4.95�8.38) for producing microalgal biomass but deficit values for microalgal-to-biodiesel (0.14�0.23), stemming from the high energy input requirements in the downstream processes for converting biomass into lipid and biodiesel accounting to 88�90 of the cumulative energy demand. Although the energy balance for microalgae-to-biodiesel is in the deficits, it is comparable with other reported biodiesel production case studies (0.12�0.40). Nevertheless, the approach to using microalgal-bacterial cultivation system has improved the overall energy efficiency especially in the upstream processes compared to conventional microalgal cultivation systems. Energy life cycle assessments with other microalgal based biofuel systems also proposed effective measures in increasing the energy feasibility either by utilizing the residual biomass and less energy demanding downstream extraction processes from microalgal biomass. The microalgal-bacterial cultivation system is anticipated to offer both environmental and economic prospects for upscaling by effectively exploiting the low-cost nutrients from wastewaters via bioconversion into valuable microalgal biomass and biodiesel. © 2023 Elsevier Ltd
format Article
author Leong, W.H.
Lim, J.W.
Rawindran, H.
Liew, C.S.
Lam, M.K.
Ho, Y.C.
Khoo, K.S.
Kusakabe, K.
Abdelghani, H.T.M.
Ho, C.-D.
Ng, H.-S.
Usman, A.
Kang, H.-S.
spellingShingle Leong, W.H.
Lim, J.W.
Rawindran, H.
Liew, C.S.
Lam, M.K.
Ho, Y.C.
Khoo, K.S.
Kusakabe, K.
Abdelghani, H.T.M.
Ho, C.-D.
Ng, H.-S.
Usman, A.
Kang, H.-S.
Energy balance and life cycle assessments in producing microalgae biodiesel via a continuous microalgal-bacterial photobioreactor loaded with wastewater
author_facet Leong, W.H.
Lim, J.W.
Rawindran, H.
Liew, C.S.
Lam, M.K.
Ho, Y.C.
Khoo, K.S.
Kusakabe, K.
Abdelghani, H.T.M.
Ho, C.-D.
Ng, H.-S.
Usman, A.
Kang, H.-S.
author_sort Leong, W.H.
title Energy balance and life cycle assessments in producing microalgae biodiesel via a continuous microalgal-bacterial photobioreactor loaded with wastewater
title_short Energy balance and life cycle assessments in producing microalgae biodiesel via a continuous microalgal-bacterial photobioreactor loaded with wastewater
title_full Energy balance and life cycle assessments in producing microalgae biodiesel via a continuous microalgal-bacterial photobioreactor loaded with wastewater
title_fullStr Energy balance and life cycle assessments in producing microalgae biodiesel via a continuous microalgal-bacterial photobioreactor loaded with wastewater
title_full_unstemmed Energy balance and life cycle assessments in producing microalgae biodiesel via a continuous microalgal-bacterial photobioreactor loaded with wastewater
title_sort energy balance and life cycle assessments in producing microalgae biodiesel via a continuous microalgal-bacterial photobioreactor loaded with wastewater
publisher Elsevier Ltd
publishDate 2023
url http://scholars.utp.edu.my/id/eprint/37297/
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85168831027&doi=10.1016%2fj.chemosphere.2023.139953&partnerID=40&md5=49214820e0abe4e8b5aac5775b856b40
_version_ 1779441361680859136

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