This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
Effect of Ignition Timing on Small SI Engine Torque at WOT Condition with Syngas from Wood Biomass Gasifier
Technical Paper
2015-32-0795
ISSN: 0148-7191, e-ISSN: 2688-3627
Annotation ability available
Sector:
Language:
English
Abstract
Recently, alternative power generation that does not use the oil has attracted attention. There is a power generation using a biomass in one of them. However, biomass power plants is fewer in Japan. Below are two reasons why biomass power plants is few. Firstly, biomass resources are widely and thinly. So, biomass resources is a high transportation cost. Secondly, Efficiency of small biomass plant is low. Therefore, we're working with high-efficiency small biomass gasifier to the development of the power generation method. First, we generated the gas biomass by pyrolysis. Next, SI-ICE has examined whether it can be operated continuously when produced gas was thrown into the SI-ICE. In addition, when the produced gas was charged, changing the ignition timing was examined whether affect much to SI-ICE. The results of the experiment, continued operation of the SI-ICE was possible. Ignition timing was advanced, so that SI-ICE was increased efficiency and power. However, minimum advance for best torque is not found was impossible. Also, to discuss combustion in cylinder was impossible. Combustion in the cylinder is not stabilized. Because of composition and flow of produced gas was not stable.
Authors
- Hiroshi Enomoto - College of Science & Technology, Kanazawa Univ.
- Kazuyuki Teraoka - College of Science & Technology, Kanazawa Univ.
- Noboru Hieda - College of Science & Technology, Kanazawa Univ.
- Masahiro Sasao - College of Science & Technology, Kanazawa Univ.
- Yusuke Odani - College of Science & Technology, Kanazawa Univ.
Topic
Citation
Enomoto, H., Teraoka, K., Hieda, N., Sasao, M. et al., "Effect of Ignition Timing on Small SI Engine Torque at WOT Condition with Syngas from Wood Biomass Gasifier," SAE Technical Paper 2015-32-0795, 2015, https://doi.org/10.4271/2015-32-0795.Also In
References
- MATSUMURA Yukihiro , INOUE Takashi , KOMOTO Keiichi , HIRATA Satoshi , HADA Kenichiro , FUKUDA Katusra , MINOWA Tomoaki , and YAMAMOTO Hiromi Biomass Production Scale in Japan Journal of the Japan Institute of Energy 82 327 333 2003
- Reed T. , Das A. Handbook of biomass downdraft gasifer engine systems 1988
- ENOMOTO Hiroshi , NOZUE Hirotaka and HIEDA Noboru Effects of Spark Ignition Timing on Exhaust Gas Component and Temperature with Wood Biomass Gasifier JSAE 20139115, SAE 2013-32-9115 2013
- Mahapatra Sadhan , Dasappa S. Influence of surface area to volume ratio of fuel particles on gasification process in a fixed bed Energy for Sustainable Development 19 122 129 2014
- Elder Thomas , Groom Leslie H. Pilot-scale gasification of woody biomass Biomass and Bioenergy 35 8 3522 3528 2011
- Martinez Juan Daniel , Lora Electo Eduardo Silva , Andrade Rubenildo Viera , Jaen Rene Lesme Experimental study on biomass gasification in a double air stage downdraft reactor BIOMASS AND BIOENERGY 35 3465 3480 2011
- Tsiakmakis Stefanos , Mertzis Dimitrios , Dimaratos Athanasios , Toumasatos Zisimos , Samaras Zissis Experimental study of combustion in a spark ignition engine operating with producer gas from various biomass feedstocks Fuel 122 126 139 2014
- Enomoto Hiroshi , Nozue Hirotaka and Hieda Noboru Efffects of EGR on Knock-Level of Small Spark Ignition Engine with Gasoline-Base Kerosene-Mixed Fuel JSAE 20139144/SAE 2013-32-9114 2013