• Title/Summary/Keyword: Microwave gasification

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Microwave-enhanced gasification of sewage sludge waste

  • Chun, Young Nam;Song, Hee Gaen
    • Environmental Engineering Research
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    • v.24 no.4
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    • pp.591-599
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    • 2019
  • To convert sewage sludge to energy, drying-gasification characteristics during microwave heating were studied. During the gasification of carbon dioxide, the main products were gas, followed by char, and tar in terms of the amount. The main components of the producer gas were carbon monoxide and hydrogen including a small amount of methane and light hydrocarbons. They showed a sufficient heating value as a fuel. The generated tar is gravimetric tar, which is total tar. As light tars, benzene (light aromatic tar) was a major light tar. Naphthalene, anthracene, and pyrene (light polycyclic aromatic hydrocarbon tars) were also generated, but in relatively small amounts. Ammonia and hydrogen cyanide (precursor for NOx) were generated from thermal decomposition of tar containing protein and nitrogen in sewage sludge. In the case of sludge char, its average pore diameter was small, but specific area, pore volume, and adsorption amounts were relatively large, resulting in superior adsorption characteristics.

Characteristics of Carbon Dioxide Gasification for Sewage Sludge in Microwave (마이크로웨이브에 의한 하수 슬러지 이산화탄소 가스화 특성)

  • JEONG, BYEORI;YOON, SOOHYUK;CHUN, YOUNGNAM
    • Journal of Hydrogen and New Energy
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    • v.27 no.2
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    • pp.192-200
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    • 2016
  • A characteristics of microwave drying-gasification was analyzed for converting a dewatered sewage sludge generated a wastewater treatment plant. Gas (60%) was the largest component of the product of microwave gasification, followed by sludge char (33%) and tar (2%). The main components of the producer gas were hydrogen (33%) and carbon monoxide (40%), and there was some methane and hydrocarbons ($C_2H_4$, $C_2H_6$, $C_3H_8$). Larger nitrogen and smaller oxygen amounts were generated. Gravimetric tar generated $414g/m^3$. This means a total tar which is a heavy hydrocarbons from the volatile organic substance in the sewage sludge. Selected light tars were benzene, anthracene, naphthalene, pyrene, showing lower concentrations as 2.62, 0.37, 0.49, $0.28g/m^3$, respectively. Sludge char has larger meso pores which is a mean pore size of $50.85{\AA}$ and has high adsorptivity. An amount of adsorption was $228.71cm^3/g$, showing higher quantity than acommercial adsorbers. This indicates that the gas obtained from the microwave gasification of wet sewage sludge can be used as fuel, but the heavy tar in the gas must be treated. Sludge char can be used as a tar reduction adsorbent in the process, and then burns as a solid fuel.

CO2 Gasification of Carbon Materials by Microwave Heating (마이크로파 가열에 의한 탄소물질의 CO2 가스화)

  • SONG, HEE GAEN;KIM, EUN HYUK;CHUN, YOUNG NAM
    • Journal of Hydrogen and New Energy
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    • v.30 no.1
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    • pp.35-42
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    • 2019
  • Recently, the gradual increase in energy acceptance is mostly satisfied by fossil fuels, but research and development of renewable energy sources are attracting attention due to fossil fuel supply and greenhouse gas problem. The disadvantage is that renewable energy can not be produced continuously. This being so, energy storage is an important technology in renewable energy. In this study, microwave was used to convert carbon receptor-carbon dioxide to gas fuel.

MICOWAVE PLASMA BURNER

  • Hong, Yong-Cheol;Shin, Dong-Hun;Lee, Sang-Ju;Jeon, Hyung-Won;Lho, Taihyeop;Lee, Bong-Ju
    • Proceedings of the Korean Vacuum Society Conference
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    • 2010.08a
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    • pp.95-95
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    • 2010
  • An apparatus for generating flames and more particularly the microwave plasma burner for generating high-temperature large-volume plasma flame was presented. The plasma burner was composed of micvrowave transmission lines, a field applicator, discharge tube, coal and gas supply systems, and a reactor. The plasma burner is operated by injecting coal powders into a 2.45 GHz microwave plasma torch and by mixing the resultant gaseous hydrogen and carbon compounds with plasma-forming gas. We in this work used air, oxygen, steam, and their mixtures as a discharge gas or oxidant gas. The microwave plasma torch can instantaneously vaporize and decompose the hydrogen and carbon containing fuels. It was observed that the flame volume of the burner was more than 50 times that of the torch plasma. The preliminary experiments were carried out by measuring the temperature profiles of flames along the radial and axial directions. We also investigated the characteristics for coal combustion and gasification by analyzing the byproducts from the exit of reactor. As expected, various byproducts such as hydrogen, carbon monoxide, carbon dioxide, hydrogen sulfide, etc. were detected. It is expected that such burner cab be applied to coal gasification, hydrocarbon reforming, industrial boiler of power plants, etc.

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The Characteristics of Coal Gasification using Microwave Plasma (마이크로웨이브 플라즈마를 이용한 석탄가스화 특성 연구)

  • Kim, Doo-Il;Lee, Jae-Goo;Kim, Yong-Ku;Yoon, Sang-Jun
    • Journal of Hydrogen and New Energy
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    • v.23 no.1
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    • pp.93-99
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    • 2012
  • The investigation of clean and environment-friendly coal utilization technology is actively progressed due to high oil price and serious climate change caused by greenhouse gas emissions. In this study, the plasma gasification was performed using a 6kW microwave plasma unit under various reaction conditions: the particle sizes of coal ($45{\mu}m-150{\mu}m$), $O_2$/fuel ratio (0 - 1.3), and steam/fuel ratio (0 - 1.5). The $H_2$ composition decreases with decreasing coal particle size. With increasing $O_2$/fuel ratio, the $H_2$ composition in the syngas decreased while the $CO_2$ composition increased. As the steam/fuel ratio increased from 0 to 1.5, the $H_2$ composition in the syngas increased while the $CO_2$ composition decreased. From the results, it was proven that the variation of syngas composition greatly affected by $O_2$/fuel ratio than steam/fuel ratio. The $H_2$ composition in the syngas, carbon conversion, and cold gas efficiency increased with increasing plasma power.

Mineralogical and Drying Characteristics of Chinese Low Rank Coal for Coal Gasification (석탄가스화를 위한 중국산 저급 석탄의 광물학적 및 건조 특성)

  • Park, Chong-Lyuck;Kim, Byoung-Gon;Jeon, Ho-Seok;Kim, Sang-Bae;Park, Suk-Hwan;Lee, Jae-Ryeong
    • Journal of the Mineralogical Society of Korea
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    • v.23 no.3
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    • pp.199-209
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    • 2010
  • Coal gasification technology in the sector of domestic clean coal technologies is being into the limelight since recent dramatic rise of international oil price. In this study, we used a low rank coal from Inner Mongolia, China as a starting material for gasification. Various properties including optical, mineralogical, X-ray spectroscopic, X-ray diffraction, and drying property were measured and tested in order to estimate the suitability of the coal to gasification. The coal was identified as a brown coal of lignite group from the measurement of vitrinite reflectance. The coal has very low slagging and fouling potentials, and the ignition temperature is about $250^{\circ}C$. The major impurities consist of quartz, siderite, and clay minerals. Additionally, the coal had moisture content above 28%. Tests for finding effective drying method showed that the microwave drying is more effective than thermal drying.

Industrial Infrastructure Technologies for the Methane Energy-based Society and the Role of Microwaves

  • Katori, Yoshishige
    • Journal of electromagnetic engineering and science
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    • v.10 no.4
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    • pp.256-262
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    • 2010
  • This paper discussed the following. 1. After reaching the final phase of an oil-based society, a resource-saving and -recycling "Methane Energy-based Society" will come about because of limited natural resources. 2. Industrial Infrastructure Technologies which support the Methane Energy-based Society will cause a paradigm shift in the area of industrial, transportation and civilian sectors. 3. The Non-communication application technology of microwaves plays an important role as one of the core element technologies which comprise new industrial infrastructure technologies.