Thông tin chung

  English

  Đề tài NC khoa học
  Bài báo, báo cáo khoa học
  Hướng dẫn Sau đại học
  Sách và giáo trình
  Các học phần và môn giảng dạy
  Giải thưởng khoa học, Phát minh, sáng chế
  Khen thưởng
  Thông tin khác

  Tài liệu tham khảo

  Hiệu chỉnh

 
Số người truy cập: 74,071,638

 Thermodynamic Equilibrium Study of Methane Reforming with Carbon Dioxide, Water and Oxygen
Tác giả hoặc Nhóm tác giả: Doan Pham Minh, Thanh Son Phan, Didier Grouset, and Ange Nzihou
Nơi đăng: Journal of Clean Energy Technologies; Số: 4;Từ->đến trang: 309-314;Năm: 2018
Lĩnh vực: Khoa học công nghệ; Loại: Bài báo khoa học; Thể loại: Quốc tế
TÓM TẮT
Waste and biomass valorization can be achieved by biological degradation processes. The resulting biogas can be transformed into liquid fuels or chemicals via reforming
processes. This paper aims to study the thermodynamic equilibrium of methane reforming with different oxidants: CO2, H2O, and O2 at atmospheric pressure using FactSage software
(6.3. version). The reaction temperature plays crucial role in all cases. High methane conversion together with high selectivity in syngas (H2 and CO) can be only obtained above 750°C. An
excess in oxidants is also required to limit the formation of solid carbon. Taking into account the fact that biogas usually contains more CH4 than CO2, steam addition to biogas reforming medium is recommended to get high methane conversion and to increase the molar ratio of H2/CO, which is favorable for liquid fuels or chemical production via Fisher-Tropsch synthesis, methanol synthesis or hydrogen production.
ABSTRACT
Waste and biomass valorization can be achieved by biological degradation processes. The resulting biogas can be transformed into liquid fuels or chemicals via reforming
processes. This paper aims to study the thermodynamic equilibrium of methane reforming with different oxidants: CO2, H2O, and O2 at atmospheric pressure using FactSage software
(6.3. version). The reaction temperature plays crucial role in all cases. High methane conversion together with high selectivity in syngas (H2 and CO) can be only obtained above 750°C. An
excess in oxidants is also required to limit the formation of solid carbon. Taking into account the fact that biogas usually contains more CH4 than CO2, steam addition to biogas reforming medium is recommended to get high methane conversion and to increase the molar ratio of H2/CO, which is favorable for liquid fuels or chemical production via Fisher-Tropsch synthesis, methanol synthesis or hydrogen production.
[ 2019\2019m010d03_14_30_31Thermodynamic_Equilibrium_Study_of_Methane_Reforming_with_Carbon_Dioxide,_Water_and_Oxygen.pdf ]
© Đại học Đà Nẵng
 
 
Địa chỉ: 41 Lê Duẩn Thành phố Đà Nẵng
Điện thoại: (84) 0236 3822 041 ; Email: dhdn@ac.udn.vn