ANALISIS WOOD STOVE UB-03 DENGAN MENGGUNAKAN CFD (COMPUTATIONAL FLUID DYNAMICS)
| Main Author: | Satiawan, Ediy |
|---|---|
| Format: | Thesis NonPeerReviewed Book |
| Bahasa: | eng |
| Terbitan: |
, 2018
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| Subjects: | |
| Online Access: |
http://eprints.umm.ac.id/40327/1/Pendahuluan.pdf http://eprints.umm.ac.id/40327/2/BAB%20I.pdf http://eprints.umm.ac.id/40327/3/BAB%20II.pdf http://eprints.umm.ac.id/40327/4/BAB%20III.pdf http://eprints.umm.ac.id/40327/5/BAB%20IV.pdf http://eprints.umm.ac.id/40327/6/BAB%20V.pdf http://eprints.umm.ac.id/40327/7/LAMPIRAN.pdf http://eprints.umm.ac.id/40327/ |
Daftar Isi:
- Despite the Gasifier Top-Lit Up Draft (T-LUD) stoves, and On some biomass-gas stoves such as Wood-Gas Turbo Stove, UB-03 stoves using gasification systems. is already quite successful in lowering CO gas emissions, but still has some shortcomings until now. The drawbacks are mainly on the problem of airflow movement, optimization of combustion techniques, and characteristics of the biomass fuel used. To know the performance of the original and modified UB-03 stoves, an incoming air analysis was performed and simulated with Computational Fluid Dynamics (CFD). The purpose of the simulation itself to know the motion of air caused by the temperature during the burning. After the incoming air analysis, the results obtained (the original ub-03 stove, on the primary tube 9570.6 gr / s, on the reactor tube 9089.6 gr / s), (stove ub-03 modif 1, on primary tube 6801, 6 gr / s, on reactor tube 8889.8 gr / s), (stove ub-03 modif 2, on primary tube 10506,6 gr / s, on reactor tube 9145,5 gr / s). From the incoming air results are not based on stoikemetri air are: 2900.3 gr / s. The simulation results also show on the stove that the incoming air is uneven. So with this knowing the advantages and disadvantages. Which is the factor resulting from the error in designing because it is not in accordance with the planned by designer, because it does not see the field conditions.