DocumentCode
993888
Title
Modeling of the Coal Gasification Processes in a Hybrid Plasma Torch
Author
Matveev, Igor B. ; Serbin, Serhiy I.
Author_Institution
Appl. Plasma Technol., McLean
Volume
35
Issue
6
fYear
2007
Firstpage
1639
Lastpage
1647
Abstract
The major advantages of plasma treatment systems are cost effectiveness and technical efficiency. A new efficient electrodeless 1-MW hybrid plasma torch for waste disposal and coal gasification is proposed. This product merges several solutions such as the known inductive-type plasma torch, innovative reverse-vortex (RV) reactor and the recently developed nonequilibrium plasma pilot and plasma chemical reactor. With the use of the computational-fluid-dynamics-computational method, preliminary 3-D calculations of heat exchange in a 1-MW plasma generator operating with direct vortex and RV have been conducted at the air flow rate of 100 g/s. For the investigated mode and designed parameters, reduction of the total wall heat transfer for the reverse scheme is about 65 kW, which corresponds to an increase of the plasma generator efficiency by approximately 6.5%. This new hybrid plasma torch operates as a multimode, high power plasma system with a wide range of plasma feedstock gases and turn down ratio, and offers convenient and simultaneous feeding of several additional reagents into the discharge zone.
Keywords
chemical reactors; coal gasification; computational fluid dynamics; heat transfer; plasma torches; plasma transport processes; waste disposal; coal gasification modeling; computational-fluid-dynamics; direct vortex; electrodeless hybrid plasma torch; heat exchange; inductive-type plasma torch; innovative reverse-vortex reactor; multimode high power plasma system; nonequilibrium plasma pilot; plasma chemical reactor; plasma generator; plasma treatment systems; wall heat transfer; waste disposal; Atmospheric-pressure plasmas; Chemical reactors; Costs; Gases; IEEE Transactions on Plasma Science; Plasma chemistry; Plasma devices; Plasma materials processing; Waste disposal; Water heating; Coal; modeling; plasma; waste processing;
fLanguage
English
Journal_Title
Plasma Science, IEEE Transactions on
Publisher
ieee
ISSN
0093-3813
Type
jour
DOI
10.1109/TPS.2007.910134
Filename
4392549
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