Difference between revisions of "Biomass gasification in food production"
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=== Biomass gasification === | === Biomass gasification === | ||
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Biomass gasification is applied for the conversion of biomass to producer gas where the fuel is partially oxidized to a secondary energy carrier. The resulting gas mixture is called syngas or producer gas and consists of hydrogen, carbon monoxide, carbon dioxide and methane [1]. Producer gas is in most cases currently used as a fuel for heat and power generation in highly efficient CHP systems. | Biomass gasification is applied for the conversion of biomass to producer gas where the fuel is partially oxidized to a secondary energy carrier. The resulting gas mixture is called syngas or producer gas and consists of hydrogen, carbon monoxide, carbon dioxide and methane [1]. Producer gas is in most cases currently used as a fuel for heat and power generation in highly efficient CHP systems. | ||
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Figure 9: Biomass gasification based CHP plant | Figure 9: Biomass gasification based CHP plant | ||
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|Energy output | |Energy output | ||
|Hot water 90°C/60°C | |Hot water 90°C/60°C | ||
− | Electricity (η<sub>el</ | + | Electricity (η<sub>el</sub> ca. 22-40%) |
|- | |- | ||
|Fuel | |Fuel |
Latest revision as of 10:16, 19 March 2015
Back to EFFICIENCY FINDER OF FOOD INDUSTRY
Biomass gasification
Biomass gasification is applied for the conversion of biomass to producer gas where the fuel is partially oxidized to a secondary energy carrier. The resulting gas mixture is called syngas or producer gas and consists of hydrogen, carbon monoxide, carbon dioxide and methane [1]. Producer gas is in most cases currently used as a fuel for heat and power generation in highly efficient CHP systems.
Figure 9: Biomass gasification based CHP plant
The main advantage of biomass gasification is the high power-to-heat ratio which enables a considerable reduction of pollutant emissions from power generation. Other advantages of biomass gasification are the multiple possibilities for the use of producer gas which can be applied for the production of heat, power and biofuels. The disadvantages of biomass gasification are the relatively complex plant operation, problems with gas cleaning and the lack of long term practical experience from biomass gasification plants. Biomass gasification along with; the water-steam power process and the ORC process one of the few proven technologies for heat and power generation from biomass fuels. The rising fuel prices and the good performance of gasification plants are the main reason for a rapid expanding use of this technology [2].
Table 7: Technical specifications of biomass gasification CHP plants
Biomass gasification CHP plant parameters | |||||
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Typical performance range | 50 kW to 500 kW | ||||
Energy output | Hot water 90°C/60°C
Electricity (ηel ca. 22-40%) | ||||
Fuel | Wood-chips, pellets, sawdust |
References
[1] Balat, M., Balat, M., Kirtay, E., & Balat, H. (2009). Main routes for the thermo-conversion of biomass into fuels and chemicals. Part 2: Gasification systems. Energy Conversion and Management (50) , pp. 3158-3168.
[2] FNR (2005). Road map bioenergy: planing, operation and economic efficiency of biomass based systems (in German). Gülzov: FNR.