Progress of comprehensive utilization technology of agricultural and forestry wastes in Guangdong under the background of“carbon peaking and carbon neutrality”

被引：0

作者：

Xu L. ^{[1
]}

Wu Y. ^{[1
]}

Zhang Y. ^{[2
]}

Hu S. ^{[2
]}

机构：

[1] Institute of Circular Economy, Faculty of Materials and Manufacturing, Beijing University of Technology, Beijing

[2] Guangzhou Institute of Energy Conversion, Chinese Academy of Science, Guangdong, Guangzhou

来源：

Huagong Jinzhan/Chemical Industry and Engineering Progress | 2023年 / 42卷 / 11期

关键词：

chemical processes; electrochemical conversion; hydrogen production; methane; waste treatment;

D O I：

10.16085/j.issn.1000-6613.2022-2293

中图分类号：

学科分类号：

摘要：

Guangdong is rich in agricultural and forestry waste resources. Promoting the multi-channel resource utilization of agricultural and forestry waste conforms to the national requirements of energy conservation, emission reduction and green development, and is a major task of environmental protection and governance in urban and rural areas of Guangdong. It is also of great significance to help the “double carbon” strategy. This paper reviews the energy and chemicals production from agriculture and forestry waste resource via the technology route of direct combustion/gasification power generation, methane, green hydrogen, biodiesel fuel and methanol preparation as well as the electrochemical application. Also, the development and challenges of different technical paths are analyzed to reveal the utilization prospects of agricultural and forestry wastes resource. Finally, we propose suggestions to promote the development of agriculture and forestry waste resource utilization. It is expected to provide a universal model and theoretical support for the conversion and development of biomass energy under the constraint of “carbon peaking and carbon neutrality” goals, promoting the multi-channel efficient resource utilization of agricultural and forestry wastes in Guangdong. © 2023 Chemical Industry Press. All rights reserved.

引用

页码：5648 / 5660

页数：12

共 95 条

[21]

AHMAD Farah B, ZHANG Zhanying, DOHERTY William O S, Et al., The outlook of the production of advanced fuels and chemicals from integrated oil palm biomass biorefinery, Renewable and Sustainable Energy Reviews, 109, pp. 386-411, (2019)

[22]

PINHEIRO PIRES Anamaria Paiva, ARAUZO Jesus, FONTS Isabel, Et al., Challenges and opportunities for bio-oil refining: A review, Energy & Fuels, 33, 6, pp. 4683-4720, (2019)

[23]

ELLIOTT Douglas C., Historical developments in hydroprocessing bio-oils, Energy & Fuels, 21, 3, pp. 1792-1815, (2007)

[24]

WANG Huamin, MALE Jonathan, WANG Yong, Recent advances in hydrotreating of pyrolysis bio-oil and its oxygen-containing model compounds, Acs Catalysis, 3, 5, pp. 1047-1070, (2013)

[25]

KUCHEROV Fedor A, ROMASHOV Leonid V, GALKIN Konstantin I, Et al., Chemical transformations of biomass-derived C6-furanic platform chemicals for sustainable energy research, materials science, and synthetic building blocks, ACS Sustainable Chemistry & Engineering, 6, 7, pp. 8064-8092, (2018)

[26]

PETRUS Leo, NOORDERMEER Minke A., Biomass to biofuels, a chemical perspective, Green Chemistry, 8, 10, pp. 861-867, (2006)

[27]

DIAO Xinyong, JI Na, LI Xinxin, Et al., Fabricating high temperature stable Mo-Co9S8/Al2O3 catalyst for selective hydrodeoxygenation of lignin to arenes, Applied Catalysis B: Environmental, 305, (2022)

[28]

XU Yanfei, LI Xiangyang, GAO Junhu, Et al., A hydrophobic FeMn@Si catalyst increases olefins from syngas by suppressing C1 byproducts[J], Science, 371, pp. 610-613, (2021)

[29]

DING Mingyue, MA Longlong, ZHANG Qian, Et al., Enhancement of conversion from bio-syngas to higher alcohols fuels over K-promoted Cu-Fe bimodal pore catalysts, Fuel Processing Technology, 159, pp. 436-441, (2017)

[30]

TU Junling, DING Mingyue, WANG Tiejun, Et al., Direct conversion of bio-syngas to gasoline fuels over a Fe3O4@C fischer-tropsch synthesis catalyst, Energy Procedia, 105, pp. 82-87, (2017)

← 1 2 3 4 5 6 7 8 9 10 →