• 한국연소학회지
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• 제1권1호
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• pp.1-10
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• 1996

An effective scale-up methodology of fluidized bed incinerators for low calorific value industrial wastes such as paper sludge and sewage sludge has been developed based on the similarity rules. Conventional scale-up theories are briefly reviewed and a new simple theory defining the diffusion Fourier number is established taking account of the lateral mixing of fuels in the fluidized bed. From the design and the operating conditions of the pilot FBC plant at Inchon, important design data for the full-scale incinerators are calculated and discussed.

• 유기물자원화
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• 제9권4호
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• pp.105-110
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• 2001

쓰레기의 효과적인 처리방안을 제시하고 장래 대책을 수립하는데 자료로 활용하도록 하기 위해서 순천시 생활쓰레기의 물리 화학적 특성을 조사하였다. 발생 쓰레기의 계절별, 성상별 특성을 조사 분석하여 다음의 결과를 얻었다. 생활쓰레기의 겉보기밀도는 가연성쓰레기가 $219kg/m^3$, 비가연성쓰레기는 $391kg/m^3$로 나타났다. 가연성쓰레기 중에서 음식물쓰레기의 습윤질량 중량비 가중평균은 38.1%를 차지하였으며, 음식물쓰레기를 제외한 가연성쓰레기는 49.6%를 나타내었다. 음식물쓰레기를 제외한 가연성쓰레기의 수분함량, 가연분함량 및 회분함량의 가중평균은 각각 16.9%, 68.1% 및 15.0%로 나타나 소각처리의 특성이 양호하게 나타났다. 음식물쓰레기를 제외한 가연성쓰레기의 저위발열량은 2,962kcal/kg로 나타나 소각처리의 특성이 아주 양호하게 나타났다.

• International Journal of Automotive Technology
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• 제4권1호
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• pp.1-8
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• 2003

Wastes such as shredder dust of disposed vehicles can be decomposed into low calorific flammable gases by Pyrolysis gasification. A stationary electric Power generation using an internal combustion engine fuelled with the waste-pyrolysis gas is an effective way to ease both waste management and energy saving issues. The waste-pyrolysis gas mainly consists of H$_2$, CO, $CO_2$ and $N_2$. The composition and heating value of the gas generated depend on the conversion process and the property of the initial waste. This research analyzed the characteristics of the combustion and the exhaust emissions in a premixed charge spark ignition engine fuelled with several kinds of model gases, which were selected to simulate the pyrolysis-gases of automobile shredder dusts. The influences of the heating value and composition of the fuel were analyzed parametrically. Furthermore, optical analyses of the combustion flame were made to study the influence of the fuel's inert gas on the flame propagation.

• 한국대기환경학회지
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• 제18권5호
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• pp.401-410
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• 2002

Concerns for energy conservation, environmental pollution, and the fact that organic wastes account for a major portion of our waste materials, have created the interest of biogas, which usually contains about 60 to 70 percent methane, 30 to 40 percent carbon dioxide, and other gases, including ammonia, hydrogen sulfide, mercaptans and other noxious gases. Cyclone combustors are used for homing a wide range of fuels such as low calorific value gas, waste water, sludge. coal, etc. The 3-dimensional swirling flow, combustion and emission in a tangential inlet cyclone incinerator under different inlet conditions are simulated using a standard k-s turbulence model and ESCRS (Extended Simple Chemically-Reacting System) model. The commercial code Phoenics Ver.3.4 was used for the present work. The main parameters considered in this work are inlet velocity and air to fuel ratio. The results showed that the change of operating conditions had an influence on the shape and size of recirculation zones, mixture fraction and axial velocity which are important factors for combustion efficiency and emission behavior. The application of this kind of computer program seams to be promising as a potential tool for the optimum design of a cyclone combustor with low emission.

• 적정기술학회지
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• 제7권1호
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• pp.59-71
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• 2021

하이브리드수열탄화 (Hybrid HTC) 기술은 2가지 이상의 유기성폐기물을 혼합한 특허 받은 열역학 공정으로 공정온도 180~250℃, 압력 20~40 bar에서 반응시간이 2시간 이내이며 에너지 소비가 적고, 폐기물의 부피감소 및 악취 저감효과가 크다. 폐기물 중 대부분의 탄소가 최종 생성물에 축적되므로 유기성 폐기물 고형연료화에 가장 적합한 기술로 평가받고 있다. 본 연구에서는 하이브리드 수열탄화기술을 활용하여 캄보디아 망고 폐기물을 대상으로 온도 및 반응시간의 변화에 따라 발열량 및 수율 등에 미치는 영향에 대하여 평가하였다. 본 연구를 통해 공정변수를 최적화하고, 전공정플랜트의 에너지 효율성을 향상시킬 수 있으며, 수연탄화기술에서 분해되어 가스가 생성되는데 이때 수소(H₂) 및 메탄(CH₄) 등 제조 및 생산기술개발을 할 수 있다. 본 연구 결과를 토대로 망고폐기물(2t/day)실증 물질수지 및 에너지 수지 도출과 함께 경제성도 평가하였다.

• 한국신재생에너지학회:학술대회논문집
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• 한국신재생에너지학회 2008년도 춘계학술대회 논문집
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• pp.479-482
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• 2008

Since late of 2000, KIER has developed a novel pyrolysis process for production of fuel oils from polymer wastes. It could have been possible due to large-scale funding of the Resource Recycling R&D Center. The target was to develop an uncatalyzed, continuous and automatic process producing oils that can be used as a fuel for small-scale industrial boilers. The process development has proceeded in three stages bench-scale unit, pilot plant and demonstration plant. As a result, the demonstration plant having capacity of 3,000 tons/year has been constructed and is currently under test operation for optimization of operation conditions. The process consisted of four parts ; feeding system, cracking reactor, refining system and others. Raw materials were pretreated via shredding and classifying to remove minerals, water, etc. There were 3 kind of products, oils(80%), gas(15%), carbonic residue(5%). The main products i.e. oils were gasoline and diesel. The calorific value of gas has been found to be about 18,000kcal/$m^3$ which is similar to petroleum gas and shows that it could be used as a process fuel. Key technologies adopted in the process are 1) Recirculation of feed for rapid melting and enhancement of fluidity for automatic control of system, 2) Tubular reactor specially-designed for heavy heat flux and prevention of coking, 3)Recirculation of heavy fraction for prevention of wax formation, and 4) continuous removal & re-reaction of sludge for high yield of main product (oil) and minimization of residue. The advantages of the process are full automation, continuous operation, no requirement of catalyst, minimization of coking and sludge problems, maximizing the product(fuel oil) yield and purity, low initial investment and operation costs and environment- friendly process. In this presentation, background of pyrolysis technology development, the details of KIER pyrolysis process flow, key technologies and the performances of the process will be discussed in detail.