• Title/Summary/Keyword: Biomass tar

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Tar Reforming for Biomass Gasification by Ru/$Al_2O_3$ catalyst (Ru/$Al_2O_3$ 촉매를 이용한 바이오매스 타르 개질 특성)

  • Park, Yeong-Su;Kim, Woo-Hyun;Keel, Sang-In;Yun, Jin-Han;Min, Tai-Jin;Roh, Seon-Ah
    • 한국신재생에너지학회:학술대회논문집
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    • 2008.05a
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    • pp.247-250
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    • 2008
  • Biomass gasification is a promising technology for producing a fuel gas which is useful for power generation systems. In biomass gasification processes, tar formation often causes some problems such as pipeline plugging. Thus, proper tar treatment is necessary. So far, nickel (Ni)-based catalysts have been intensively studied for the catalytic tar removal. However, the deactivation of Ni-based catalysts takes place because of coke deposition and sintering of Ni metal particles. To overcome these problems, we have been using ruthenium (Ru)-based catalyst for tar removal. It is reported by Okada et al., that a Ru/$Al_2O_3$ catalyst is very effective for preventing the carbon deposition during the steam reforming of hydrocarbons. Also, this catalyst is more active than the Ni-based catalyst at a low steam to carbon ratio (S/C). Benzene was used for the tar model compound because it is the main constituent of biomass tar and also because it represents a stable aromatic structure apparent in tar formed in biomass gasification processes. The steam reforming process transforms hydrocarbons into gaseous mixtures constituted of carbon dioxide ($CO_2$), carbon monoxide (CO), methane ($CH_4$) and hydrogen ($H_2$).

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Removal of Tar and Soot in The Syngas Produced from Gasification of Wood Chip by Using Catalytic Reformer (촉매 개질기를 이용한 우드칩 가스화 합성가스 내 타르 및 수트 제거)

  • Yoon, Sang-Jun;Son, Young-Il;Kim, Yong-Ku;Lee, Jae-Goo
    • Journal of Hydrogen and New Energy
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    • v.20 no.6
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    • pp.519-525
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    • 2009
  • The catalytic steam reforming of woody biomass tar and soot to convert a synthetic gas containing hydrogen was investigated by using a bench-scale biomass gasification system. One commercial nickel-based catalyst, Katalco 46-6Q, and two different kinds of natural minerals, dolomite and olivine, were tested as a reforming catalyst at various reforming temperatures. The reaction characteristics of woody biomass tar were also investigated by TGA at a variety of heating rates. With all three catalysts conversion efficiency of tar and soot increased at increasing temperature. The reforming of tar and soot in the synthetic gas induce the increase of combustible gases such as $H_2$, CO and $CH_4$ in the product gas. The nickel-based catalyst showed a higher tar and soot conversion efficiency than mineral catalysts under the same temperature conditions.

Removal of Tar from Biomass Gasification Process (Biomass Gasification 공정에서 발생하는 Tar 제거연구)

  • Kim, Ju-Hoe;Jo, Young-Min;Kim, Jong-Su;Kim, Sang-Bum
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.19 no.8
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    • pp.552-561
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    • 2018
  • Biomass, a carbon-neutral resource, is an alternative energy source for exhaustion of fossil fuel and environmental problems. Most of energy production systems using biomass operate with a thermal chemical conversion method. Amongst them, gasification generates syngas and applies to boilers or engines for the production of heat and electricity. However, Tar could be formed during the production of syngas and it is condensed at low temperature which may cause to clog the pipelines and combustion chamber, ultimately resulting in decrease of process efficiency. Thus this work utilized water and oily materials such as soybean oil, waste cooking oil and mineral oil for scrubbing liquid. The removal efficiency of Tar appeared 97%, 70%, 63% and 30% for soybean oil, waste cooking oil, mineral oil and water respectively.

Decomposition of primary tar influenced by char particle types and reaction time during biomass gasification (바이오매스 가스화시 촤 입자 종류 및 반응시간에 따른 일차타르의 분해 특성)

  • Park, Jinje;Lee, Yongwoon;Ryu, Changkook
    • 한국연소학회:학술대회논문집
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    • 2014.11a
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    • pp.33-36
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    • 2014
  • Gasification of biomass produces syngas containing CO, $H_2$ and/or $CH_4$, which can then be converted into energy or value-added fuels. One of key issues for efficient gasification is to minimize tar concentration in the syngas for use in a final conversion device such as gas engine. This study investigated the decomposition of primary tar by catalytic cracking using char as catalyst, of which the feature can be integrated into a fixed bed gasifier design. The pyrolysis vapor containing tar from pyrolysis of wood at $500^{\circ}C$ was passed through a reactor filled with or without char at $800^{\circ}C$ for a residence time of 1, 3 or 5 sec. Then, the condensable vapor (water and tar) and gases were analyzed for the yields and elemental composition. Four types of char particles with different microscopic surface area and pore size distribution: wood, paddy straw, palm kernel shell and activated carbon. The results were analyzed for the mass and carbon yields of tar and the composition of product gases to conclude the effects of char types and residence time.

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Characteristics of Tar Generation during the interval of Gasification of Woodchip (탈휘발 과정과 촤가스화 과정에서 목질계 바이오매스의 타르발생 특성)

  • Moon, Ji-Hong;Lee, Uen-Do;Ryu, Chang-Kook;Lee, Youn-Man;Bae, Woo-Keun
    • Journal of the Korean Society of Combustion
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    • v.16 no.1
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    • pp.8-14
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    • 2011
  • Biomass gasification is a promising technology in terms of clean energy and flexible options for end use such as heat, steam, electricity, gaseous or liquid fuels. In a gasification process, reduction of tar is very important because it can cause any mechanical problems and small tar implies high energy efficiency. However, generation and conversion mechanisms of tar have not been fully understood due to its complex nature. In this study, characteristics of tar generated from different gasification stages were investigated. Korean pine woodchip was used as feedstock and tar was sampled in a separate way during devolatilization and char gasification stage, investigated. As a result. more various kinds of hydro carbon compounds were identified in the devolatilization stage than char gasification stage because primary tar compounds are released mostly from pyrolysis of cellulose and hemicellulose. When the reaction temperature increased up to $900^{\circ}C$, tar composition becomes simplified into about 10 aromatic compounds mostly with 1-4 rings without substitution up to phenanthrene. The sampled tar in the char gasification stage mostly contains 5-7 simple aromatic compounds.

Steam reforming of biomass tar over Ni/Ru-x/Al2O3 catalysts (Ni/Ru-x/Al2O3 촉매를 이용한 바이오매스 타르 개질)

  • Yoon, Sang Jun;Oh, Kun Woong;Park, Seo Yoon;Kim, Yong Gu;Seo, Myung Won;Ra, Ho Won;Lee, Jae-Goo
    • 한국연소학회:학술대회논문집
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    • 2014.11a
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    • pp.355-356
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    • 2014
  • Catalytic steam reforming of tar produced from biomass gasification was conducted using several Ni-based catalysts. K and Mn were used as a promoter over $Ni/Ru/Al_2O_3$ catalyst. The pellet and monolith type catalysts were prepared and applied to lab and bench-scale biomass gasification system. The $Ni/Ru-K/Al_2O_3$ catalyst shown higher performance than $Ni/Ru-Mn/Al_2O_3$ catalyst at low temperature range.

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Study on Tar Reforming by Using the Catalyst Derived from Wastes (폐기물유래 촉매를 이용한 타르 개질에 관한 연구)

  • Sung, Hojin;Nam, Sungbang;Pakr, Yeongsu;Gu, Jaehoi
    • 한국연소학회:학술대회논문집
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    • 2014.11a
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    • pp.267-270
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    • 2014
  • Since contaminants of syngas obtained from the biomass gasification are removed, the syngas is clean fuel. In this study a high-efficiency energy production system is developed. The system produces electricity using a waste pressure and feeds a low-pressure steam to Dyeing industrial complex. Also, iron oxide derived from dyeing sludge is utilized as a self-catalyst to reform a tar and reduce a tar emission from gasifier. This system increases the amount of syngas and finally achieves a highly efficient gasification.

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Reforming Tar from Biomass Gasification using Limonite and Dolomite as Catalysts

  • Kim, Hee-Joon;Kunii, Hiroo;Li, Liuyun;Shimizu, Tadaaki;Kim, Lae-Hyun
    • Journal of Energy Engineering
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    • v.20 no.4
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    • pp.298-302
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    • 2011
  • In this study, Catalytic reforming with vapor and biomass gasification was simultaneously performed in a same fixed bed reactor at $600-800^{\circ}C$. Light gases were produced from reformation of the tar (fuel gases) in biomass gasification by using limonite and dolomite, as catalysts. Hydrogen and carbon dioxide are main components in light gases. Hydrogen yields increased with temperature increasing in the range of $650-800^{\circ}C$, because the water shift reaction was promoted by catalyst. The yield of hydrogen gas was increased about 160% under catalyst with the mixture of limonite and dolomite comparing to limonite only.

Study on a Carbon Dioxide Gasification for Wood Biomass using a Continuous Gasifier (연속식 가스화로를 이용한 목질계 바이오매스 이산화탄소 가스화 연구)

  • Park, Min Sung;Chang, Yu Woon;Jang, Yu Kyung;Chun, Young Nam
    • Journal of Korean Society of Environmental Engineers
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    • v.36 no.10
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    • pp.704-710
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    • 2014
  • Biomass is considered an alternative energy which can solve an greenhouse gas problem like $CO_2$ which is a major contributor to global warming. The biomass can be converted to various energy sources through thermochemical conversion. In this study, a continuous gasifier was engineered for a wood biomass gasification. The biomass was used a waste wood. The experiments of $CO_2$ gasification were achieved as the gasification temperature, moisture content and input $CO_2$ concentration. The results showed that the yield of producer gas increased with an increasing the gasification temperature. The amount of the light tar increased due to the decomposition of gravimetric tar by the thermal cracking, and the char was confirmed pore development through the SEM analysis. The CO concentration was increased with an increased input $CO_2$ concentration from Boudouard reaction. Through the parametric screening studies, the hydrogen and carbon monoxide concentration were 32.91% and 48.33% at the optimal conditions of this test rig.

Preparation of isotropic spinnable pitch and carbon fiber from biomass tar through the co-carbonization with ethylene bottom oil

  • Yang, Jianxiao;Shi, Kui;Li, Xuanke;Yoon, Seong-Ho
    • Carbon letters
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    • v.25
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    • pp.89-94
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    • 2018
  • In this study, we tried to prepare an isotropic spinnable pitch which can be useful to prepare the general purpose carbon fiber through the co-carbonization of biomass tar with ethylene bottom oil under two different preparation methods (atmospheric distillation, pressurized distillation). The results showed that the ethylene bottom oil added co-carbonization was very effective to decrease of the oxygen contents for obtaining a stable spinnable pitch. The pressurized distillation was more effective to reduce the oxygen functional groups of pitches than atmospheric distillation. The obtained spinnable pitch by the pressurized distillation showed higher pitch yield of 42% and lower oxygen content of 9.12% than the spinnable pitch by the atmospheric distillation. The carbon fiber derived from the pressurized distillation spinnable pitch by carbonization at $800^{\circ}C$ for 5 min showed that the higher tensile strength of carbon fiber was increased up to 800 MPa.