Uji karakteristik gas burner dari sistem gasifikasi biomassa menggunakan fixed bed downdraft gasifier = Study of gas burner characteristic of biomass gasification system using fixed bed downdraft gasifier
| Format: | Bachelors |
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| Terbitan: |
Fakultas Teknik Universitas Indonesia
, 2010
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| Subjects: | |
| Online Access: |
http://lib.ui.ac.id/file?file=digital/2016-8/20248793-S50961-Raka Kautsar Lahia.pdf |
Daftar Isi:
- [The demanding of energy is substantial in every part of modern life. The issues of global warming become a global challenge to use the proper alternative energy. Nowadays, Coal which one of the largest energy resources in the world has chance to decrease energy problem. Therefore, coal gasification become alternative energy to become useful fuel. A good quality of fire, optimum energy balance, include low of emission would become a good alternative fuel resources. On this experimental, conducted test on gas burner with different vane number on each swirl. These variation will conduct correlation between a quality of fire, heat release rate, and emission on combustion unit. Swirl has a function to create an internal reaction zone (IRZ). On non-remixed combustion, IRZ has an objective to complete air and fuel mixing which would become a better combustion process, to stabilize fraction of flue gas so the emission would be decrease. These variation of vane number would influence IRZ optimation. This experiment use three variaton of vane number (6,8,10) on swirl gas burner with an objective to find the optimum vane number on producing flame temperature, heat release rate, and emission in combustion unit The results of experiment on variation of vane number on swirl gas burner is the best internal recirculation zone (IRZ) goes to gas burner swirl vane 8. The reason is, on swirl vane 8 has complete air and fuel mixing and low of emission. It can be shown from experiment data. Swirl vane 8 has the highest temperature on thermocouple 1 and 2 (783,33°C dan 643,33°C). Then, the highest Heat release rate happens on swirl vane 8 (10,878 kJ/s). CO2 on swirl vane 6 16,5% vol., swirl vane 8 18 % vol., and swirl vane 10 17,6% vol. Combustion efficiency on swirl vane 8 (83,41%), swirl vane 10 (82,7%), and swirl vane 6 (81,2%)., Biomass gasification is a process to convert biomass to be a combustible gas. That combustible gas named syngas later will be mixed with air or oxidator inside the gas burner to get appropiate mixing or air and fuel then could be produce optimum flame after being ignited. Gas burner that could mix the fuel and the air appropiately needed to get the optimum flame. Swirl vane is a part of gas burner that has a function to make a perfect mixing of air and fuel.The problem is the optimum number of swirl vane on gas burner still unknown. Experiment of three kinds of gas burner with different number of swirl vane; six ,eight , and ten swirl vanes done in this thesis with an objective to find out the most optimum number of swirl vane on gas burner . The results of experiment on variation of swirl vane number on gas burner is gas burner with 8 swirl vanes has the highest average flame temperature (795°C), also the highest heat release rate (11,15 kJ/s). Higher the flame temperature result in higher heat release rate. Combustion efficiency on gas burner with 8 swirl vanes is the best with 85,5%, then gas burner with 10 swirl vanes with 85,1%, and the last gas burner with 6 swirl vanes with 83,1%. Those result indicate that gas burner with 8 swirl vanes could make the best internal recirculation zone (IRZ) so that the mixing of air and fuel in the gas burner with 8 swirl vanes becomes more perfect than the other gas burner result in the most perfect combustion process.]