The investigation of the production process of biodiesel from waste soup of ramen noodles and its engine performance
This paper describes how to produce a biodiesel from the oil in the waste soup of ramen noodles, and especially clarifies an amount of oil in waste soup, the energy profit ratio (EPR) of the production of biodiesel from the oil in waste soup of ramen noodles and the engine performance of the biodies...
Main Authors: | , , , , |
---|---|
Format: | Article |
Language: | Japanese |
Published: |
The Japan Society of Mechanical Engineers
2017-01-01
|
Series: | Nihon Kikai Gakkai ronbunshu |
Subjects: | |
Online Access: | https://www.jstage.jst.go.jp/article/transjsme/83/847/83_16-00375/_pdf/-char/en |
_version_ | 1797989161977774080 |
---|---|
author | Chihiro KONDO Hiroki SANO Koji YAMANE Kiyoshi OSAKADA Kiyoshi KAWASAKI |
author_facet | Chihiro KONDO Hiroki SANO Koji YAMANE Kiyoshi OSAKADA Kiyoshi KAWASAKI |
author_sort | Chihiro KONDO |
collection | DOAJ |
description | This paper describes how to produce a biodiesel from the oil in the waste soup of ramen noodles, and especially clarifies an amount of oil in waste soup, the energy profit ratio (EPR) of the production of biodiesel from the oil in waste soup of ramen noodles and the engine performance of the biodiesel from waste soup of ramen noodles. As a result, from the waste pig bone (ton-kotsu) soup the recovered tri-glyceride was about 11g per a soup. The biodiesel produced from the oil in the waste soup of ramen noodles by using ordinary alkyl catalyst method has low cold flow properties, due to the high content of the saturated fatty acid methyl ester such as C16:0, C18:0 and so on. And it is estimated that the amount of BDF from a ramen noodle restaurant is about 2.4L if the customers are around 300 per day, and this means that the 9.9 kW co-generation system is able to be operated for an hour per day. About energy profit ratio analysis, if the oil separation process is improved, EPR from the waste soup to biodiesel will become higher than 5.0. Furthermore, engine test is performed by using BDF from the waste soup of ramen noodles as B5. As a result, it is shown that fuel consumption rate and emissions are almost the same as the case of using gasoil. |
first_indexed | 2024-04-11T08:14:45Z |
format | Article |
id | doaj.art-55c17fbb363b4afa80b07058e56fc8a9 |
institution | Directory Open Access Journal |
issn | 2187-9761 |
language | Japanese |
last_indexed | 2024-04-11T08:14:45Z |
publishDate | 2017-01-01 |
publisher | The Japan Society of Mechanical Engineers |
record_format | Article |
series | Nihon Kikai Gakkai ronbunshu |
spelling | doaj.art-55c17fbb363b4afa80b07058e56fc8a92022-12-22T04:35:11ZjpnThe Japan Society of Mechanical EngineersNihon Kikai Gakkai ronbunshu2187-97612017-01-018384716-0037516-0037510.1299/transjsme.16-00375transjsmeThe investigation of the production process of biodiesel from waste soup of ramen noodles and its engine performanceChihiro KONDO0Hiroki SANO1Koji YAMANE2Kiyoshi OSAKADA3Kiyoshi KAWASAKI4Department of Mechanical Systems Engineering, Okayama University of ScienceDepartment of Mechanical Systems Engineering, Okayama University of ScienceDepartment of Mechanical Systems Engineering, The University of Shiga PrefectureDepartment of Mechanical Systems Engineering, The University of Shiga PrefectureDepartment of Mechanical Systems Engineering, The University of Shiga PrefectureThis paper describes how to produce a biodiesel from the oil in the waste soup of ramen noodles, and especially clarifies an amount of oil in waste soup, the energy profit ratio (EPR) of the production of biodiesel from the oil in waste soup of ramen noodles and the engine performance of the biodiesel from waste soup of ramen noodles. As a result, from the waste pig bone (ton-kotsu) soup the recovered tri-glyceride was about 11g per a soup. The biodiesel produced from the oil in the waste soup of ramen noodles by using ordinary alkyl catalyst method has low cold flow properties, due to the high content of the saturated fatty acid methyl ester such as C16:0, C18:0 and so on. And it is estimated that the amount of BDF from a ramen noodle restaurant is about 2.4L if the customers are around 300 per day, and this means that the 9.9 kW co-generation system is able to be operated for an hour per day. About energy profit ratio analysis, if the oil separation process is improved, EPR from the waste soup to biodiesel will become higher than 5.0. Furthermore, engine test is performed by using BDF from the waste soup of ramen noodles as B5. As a result, it is shown that fuel consumption rate and emissions are almost the same as the case of using gasoil.https://www.jstage.jst.go.jp/article/transjsme/83/847/83_16-00375/_pdf/-char/enbiodiesel fueldiesel enginefuel productionwaste soup of ramenfuel propertyenergy profit ratio |
spellingShingle | Chihiro KONDO Hiroki SANO Koji YAMANE Kiyoshi OSAKADA Kiyoshi KAWASAKI The investigation of the production process of biodiesel from waste soup of ramen noodles and its engine performance Nihon Kikai Gakkai ronbunshu biodiesel fuel diesel engine fuel production waste soup of ramen fuel property energy profit ratio |
title | The investigation of the production process of biodiesel from waste soup of ramen noodles and its engine performance |
title_full | The investigation of the production process of biodiesel from waste soup of ramen noodles and its engine performance |
title_fullStr | The investigation of the production process of biodiesel from waste soup of ramen noodles and its engine performance |
title_full_unstemmed | The investigation of the production process of biodiesel from waste soup of ramen noodles and its engine performance |
title_short | The investigation of the production process of biodiesel from waste soup of ramen noodles and its engine performance |
title_sort | investigation of the production process of biodiesel from waste soup of ramen noodles and its engine performance |
topic | biodiesel fuel diesel engine fuel production waste soup of ramen fuel property energy profit ratio |
url | https://www.jstage.jst.go.jp/article/transjsme/83/847/83_16-00375/_pdf/-char/en |
work_keys_str_mv | AT chihirokondo theinvestigationoftheproductionprocessofbiodieselfromwastesoupoframennoodlesanditsengineperformance AT hirokisano theinvestigationoftheproductionprocessofbiodieselfromwastesoupoframennoodlesanditsengineperformance AT kojiyamane theinvestigationoftheproductionprocessofbiodieselfromwastesoupoframennoodlesanditsengineperformance AT kiyoshiosakada theinvestigationoftheproductionprocessofbiodieselfromwastesoupoframennoodlesanditsengineperformance AT kiyoshikawasaki theinvestigationoftheproductionprocessofbiodieselfromwastesoupoframennoodlesanditsengineperformance AT chihirokondo investigationoftheproductionprocessofbiodieselfromwastesoupoframennoodlesanditsengineperformance AT hirokisano investigationoftheproductionprocessofbiodieselfromwastesoupoframennoodlesanditsengineperformance AT kojiyamane investigationoftheproductionprocessofbiodieselfromwastesoupoframennoodlesanditsengineperformance AT kiyoshiosakada investigationoftheproductionprocessofbiodieselfromwastesoupoframennoodlesanditsengineperformance AT kiyoshikawasaki investigationoftheproductionprocessofbiodieselfromwastesoupoframennoodlesanditsengineperformance |