TY - GEN
T1 - A new heterogeneous process catalyst for the biodiesel production
AU - Meyer, O.
AU - Roessner, F.
AU - Rakoczy, R. A.
AU - Fischer, R. W.
PY - 2008
Y1 - 2008
N2 - A novel solid material with caustic properties applicable for heterogeneous base catalysis was developed. The material consisted of low silica zeolite with faujasite topology. The catalytic performance was analyzed using the transesterification of glycerol trioctanoate with methanol as test reaction. In contrast to other solid compounds based on LSX zeolite like Li-LSX, Na-LSX, Rb-LSX, and even basic mixed oxides derived from hydrotalcites, the K-LSX zeolite showed remarkable results. Therefore, the potassium exchanged low silica zeolite of the faujasite type is an alternative catalyst for the production of biodiesel which has the advantage of high activity without the economical and ecological disadvantages of homogenous catalysts. Furthermore, the K-LSX zeolite was extruded and used in a semi-continuous trickle bed reactor giving methyl ester yields up to 85 mass %. These results make the K-LSX zeolite a potential candidate for the development of a heterogeneous transesterification process for the biodiesel production operating in a fixed bed reactor. This is an abstract of a paper presented at the DGMK Conference "Future Feedstocks for Fuels and Chemicals" (Berlin, Germany 9/29/2008-10/1/2008).
AB - A novel solid material with caustic properties applicable for heterogeneous base catalysis was developed. The material consisted of low silica zeolite with faujasite topology. The catalytic performance was analyzed using the transesterification of glycerol trioctanoate with methanol as test reaction. In contrast to other solid compounds based on LSX zeolite like Li-LSX, Na-LSX, Rb-LSX, and even basic mixed oxides derived from hydrotalcites, the K-LSX zeolite showed remarkable results. Therefore, the potassium exchanged low silica zeolite of the faujasite type is an alternative catalyst for the production of biodiesel which has the advantage of high activity without the economical and ecological disadvantages of homogenous catalysts. Furthermore, the K-LSX zeolite was extruded and used in a semi-continuous trickle bed reactor giving methyl ester yields up to 85 mass %. These results make the K-LSX zeolite a potential candidate for the development of a heterogeneous transesterification process for the biodiesel production operating in a fixed bed reactor. This is an abstract of a paper presented at the DGMK Conference "Future Feedstocks for Fuels and Chemicals" (Berlin, Germany 9/29/2008-10/1/2008).
UR - http://www.scopus.com/inward/record.url?scp=58149499468&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:58149499468
SN - 9783936418811
T3 - DGMK Tagungsbericht
SP - 19
EP - 26
BT - DGMK Tagungsbericht 2008-3 - Preprints of the Conference "Future Feedstocks for Fuels and Chemicals"
T2 - DGMK Tagungsbericht 2008-3 - Future Feedstocks for Fuels and Chemicals
Y2 - 29 September 2008 through 1 October 2008
ER -