Strategies for fuel property enhancement for second-generation multi-feedstock biodiesel

Antioxidants; Blending; Catalysis; Catalysts; Diesel engines; Esters; Fatty acids; Feedstocks; Molar ratio; Physicochemical properties; Potassium hydroxide; Sustainable development; Transesterification; Acid value; Alternative energy; Biodiesel blending; Biodiesel production; Environmental sustainab...

Full description

Saved in:
Bibliographic Details
Main Authors: Goh B.H.H., Chong C.T., Ong H.C., Milano J., Shamsuddin A.H., Lee X.J., Ng J.-H.
Other Authors: 57206847702
Format: Article
Published: Elsevier Ltd 2023
Tags: Add Tag
No Tags, Be the first to tag this record!
id my.uniten.dspace-26901
record_format dspace
spelling my.uniten.dspace-269012023-05-29T17:37:39Z Strategies for fuel property enhancement for second-generation multi-feedstock biodiesel Goh B.H.H. Chong C.T. Ong H.C. Milano J. Shamsuddin A.H. Lee X.J. Ng J.-H. 57206847702 56962789000 55310784800 57052617200 35779071900 57211280476 57158527100 Antioxidants; Blending; Catalysis; Catalysts; Diesel engines; Esters; Fatty acids; Feedstocks; Molar ratio; Physicochemical properties; Potassium hydroxide; Sustainable development; Transesterification; Acid value; Alternative energy; Biodiesel blending; Biodiesel production; Environmental sustainability; Fuel properties; Jatropha oil; Lower acids; Molar ratio; Waste cooking oil; Biodiesel Fatty acids from non-edible bioresources are highly sought after as biofuel feedstock and the use of multi-stream feedstock for biodiesel production is of interest. This study explores the potential of using blended feedstock consisting of inedible jatropha oil (JO) and waste cooking oil (WO) for biodiesel production. Prior to blending, the unfavourable high acid value of jatropha oil was esterified under the most optimal conditions of 60 �C, 1% H2SO4 catalyst and alcohol to oil molar ratio of 11:1 to maximise the esterified yield (81.1 %). Based on the acid value measurement, the optimum volumetric blend of WO/EJO was determined to be 90/10 with the lowest acid value of 1.9 mg KOH g?1, which was then utilised as feedstock for base-catalysed transesterification. The KOH catalysed transesterification was optimised at 60 �C, 1 wt% KOH catalyst and alcohol to oil molar ratio of 6:1 to produce biodiesel with low acid value (0.2 mg KOH g?1), high calorific value (38.4 MJ kg?1), high oxidation stability (?11 h) and favourable viscosity (4.7 mm2 s?1). The results show that the produced biodiesel has acceptable physicochemical properties but its properties can further be improved by blending with petroleum diesel and antioxidant. Among those produced blend derivatives, petroleum diesel and biodiesel blend (80:20) or B20 showed the best improvement with high calorific value (46.6 MJ/kg), high oxidation stability (?37 h) and low acid value (0.3 mg KOH g?1). Based on the study, in situ feedstock blending of WO/EJO can improve the physicochemical properties of the produced biodiesel and reduce the dependency on single feedstock. Biodiesel blending with commercial diesel can enhance the biodiesel fuel properties and such derivatives can be directly applied in an existing engine. � 2022 Elsevier Ltd Final 2023-05-29T09:37:39Z 2023-05-29T09:37:39Z 2022 Article 10.1016/j.fuel.2022.123178 2-s2.0-85122622027 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85122622027&doi=10.1016%2fj.fuel.2022.123178&partnerID=40&md5=03e1d1b4f69169d6b62d7aac7cac1796 https://irepository.uniten.edu.my/handle/123456789/26901 315 123178 Elsevier Ltd 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 Antioxidants; Blending; Catalysis; Catalysts; Diesel engines; Esters; Fatty acids; Feedstocks; Molar ratio; Physicochemical properties; Potassium hydroxide; Sustainable development; Transesterification; Acid value; Alternative energy; Biodiesel blending; Biodiesel production; Environmental sustainability; Fuel properties; Jatropha oil; Lower acids; Molar ratio; Waste cooking oil; Biodiesel
author2 57206847702
author_facet 57206847702
Goh B.H.H.
Chong C.T.
Ong H.C.
Milano J.
Shamsuddin A.H.
Lee X.J.
Ng J.-H.
format Article
author Goh B.H.H.
Chong C.T.
Ong H.C.
Milano J.
Shamsuddin A.H.
Lee X.J.
Ng J.-H.
spellingShingle Goh B.H.H.
Chong C.T.
Ong H.C.
Milano J.
Shamsuddin A.H.
Lee X.J.
Ng J.-H.
Strategies for fuel property enhancement for second-generation multi-feedstock biodiesel
author_sort Goh B.H.H.
title Strategies for fuel property enhancement for second-generation multi-feedstock biodiesel
title_short Strategies for fuel property enhancement for second-generation multi-feedstock biodiesel
title_full Strategies for fuel property enhancement for second-generation multi-feedstock biodiesel
title_fullStr Strategies for fuel property enhancement for second-generation multi-feedstock biodiesel
title_full_unstemmed Strategies for fuel property enhancement for second-generation multi-feedstock biodiesel
title_sort strategies for fuel property enhancement for second-generation multi-feedstock biodiesel
publisher Elsevier Ltd
publishDate 2023
_version_ 1806428301988724736
score 13.222552