Development of Bamboo-Derived Activated Carbon as Catalyst Support of Glucose Hydrogenation
Firman Kurniawansyah, Ratna Dewi Pratiwi, Mahendra Puguh Perdana, M Al-Muttaqii, Achmad Roesyadi
Department of Chemical Engineering, Institut Teknologi Sepuluh Nopember, Surabaya, Indonesia
Abstract
Indonesia possesses high potential to develop an advanced biorefinery system, thanks to its high richness of natural resources. Bamboo for instance, with more than 200 species, in which 5% of its global distribution is found in Indonesian archipelago, is an invaluable resource to develop many useful materials. Here in this study, bamboo has been used to produce activated carbon for catalyst material. Bamboo raw material was obtained from a city park in Surabaya, and converted to activated carbon through carbonization at 773 K, followed by activation using acidic solution treatments. The activated carbon (AC) was used as catalyst support, impregnated by nickel (Ni) as metal active. The Ni/AC was applied as catalyst for hydrogenation of glucose, conducted at 0.5 MPa and 363 – 403 K. With surface area of 125 m2/g of the carbon supported catalyst applied, glucose could be converted to polyols with overall yield of approximately 3 wt % of the total products.
Keywords: bamboo, activated carbon, catalyst, hydrogenation, glucose
Topic: Chemical Engineering