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유상필(S.P. Yu),정남조(N.J. Jeoung),이승재(S.J. Lee),류인수(I.S. Ryu),강성규(S.K. Kang),송광섭(K.S. Song) 한국에너지학회 2004 한국에너지공학회 학술발표회 Vol.2004 No.-
Compared to conventional flame combustion. catalytic combustion had the advantage of oxidation of V.O.C. gas which was high voluminous, low caloric mixture flow. However, the temperature of mixture gas should be over the one of catalytic reaction start and the control of reaction on the catalytic surface tends to be vulnerable. To overcome these obstacles, composition of both catalytic combustor and heat exchanger was devised and named the sequential catalytic combustion system. In this system, only trigger unit needed preheating process for transient starting time. Once trigger unit was ignited, the next unit was supplied heat to ignite from that and same process was performed to the last one sequentially. When it come to steady state, whole mixture gas was oxidated at each unit simultaneously and preheating for trigger unit was not needed any more. System of 100 kcalh/hr capacity was devised and operated successfully.