tailieunhanh - Investigating pyrolysis characteristics of dendrocalamus asper bamboo

Green engineering investigated as a possible organic green material in the combustion process and heating applications. A bioreactor system processed Dendrocalamus asper bamboo culms as green engineering materials to theto industrial process that produces valuable elements from a natural treatment by soaking with an average of pH level of sea-water. | Investigating pyrolysis characteristics of dendrocalamus asper bamboo International Journal of Mechanical Engineering and Technology IJMET Volume 10 Issue 03 March 2019 pp. 1079-1087. Article ID IJMET_10_03_109 Available online at http ijmet JType IJMET amp VType 10 amp IType 3 ISSN Print 0976-6340 and ISSN Online 0976-6359 IAEME Publication Scopus Indexed INVESTIGATING PYROLYSIS CHARACTERISTICS OF DENDROCALAMUS ASPER BAMBOO Teodoro A. Amatosa Jr. Engineering Graduate Program School of Engineering University of San Carlos Talamban Campus Cebu City 6000 Philippines Michael E. Loretero Department of Mechanical and Manufacturing Engineering University of San Carlos Talamban Campus Cebu City 6000 Philippines Yee-wen Yen Department of Materials Science and Engineering National Taiwan University of Science and Technology Taipei 106 Taiwan Andromeda Dwi Laksono Institut Teknologi Kalimantan Kampus ITK Karang Joang Balikpapan 76127 Kalimantan Timur Indonesia. Corresponding Author ABSTRACT Green engineering investigated as a possible organic green material in the combustion process and heating applications. A bioreactor system processed Dendrocalamus asper bamboo culms as green engineering materials to theto industrial process that produces valuable elements from a natural treatment by soaking with an average of pH level of sea-water. Pyrolysis Combustion Flow Calorimeter and Differential Scanning Calorimetry DSC to utilized the precise heat capacity extent to characterize the materials. A waste product in this process is the activated carbon which is highly in demand for water cleansing system and sold to neutralize the fuel cost. The primary stage at 68-89oC is the exothermic dehydration of the biomass with the release of water and low-molecular-weight gases like carbon monoxide CO and carbon dioxide CO2 . The results from this research will be significant and helpful to develop and utilize the wastes from Dendrocalamus asper bamboo with .