@Article{EE.2020.010373,
AUTHOR = {Qin Liu, Ruliang Zhang},
TITLE = {Energy Conversion and Utilization System of Municipal Solid Waste},
JOURNAL = {Energy Engineering},
VOLUME = {117},
YEAR = {2020},
NUMBER = {2},
PAGES = {89--98},
URL = {http://www.techscience.com/energy/v117n2/38708},
ISSN = {1546-0118},
ABSTRACT = {With the development of urbanization in China, the problem of 
garbage disposal has become increasingly serious. Among the existing waste 
treatment technologies, pyrolysis is an emerging treatment technology, which 
has obvious advantages in terms of reduction and secondary pollution. It has 
good development prospects. This article first compares the advantages and 
disadvantages of various existing waste treatment technologies, and proposes an 
organization method that combines thermogravimetric analysis, kinetic analysis, 
tube furnace experiments, and domestic waste pyrolysis and low-calorie heat the 
decomposed gases burn together. Urban garbage is one of the main pollution 
sources of modern urban environmental pollution in the world. Developed 
countries attach great importance to the study of geological disposal of solid 
waste. This area is a hot issue for environmental engineering workers. At present, 
a large number of cities have formed a serious situation of urban solid waste 
accumulation. The quantity of China’s urban solid waste has grown rapidly. How 
to deal with huge urban garbage will be a major issue related to economic 
development, water resources and environmental protection. This article also 
researches the TG-FTIR combined thermogravimetric analysis of domestic 
waste, the biomass pyrolysis process was observed to be similar. The second 
region of the weight conversion process of the energy conversion and utilization 
system can be described by the first-order chemical kinetic reaction of F1, and 
the third region can be described by the third stage of D3. Diffusion reaction to 
transport is described. The activation energy and pyrolysis rate of each 
component in the flue gas atmosphere are higher than those in the N2
atmosphere. Finally, through research on the thermal weightlessness process and 
gas production process of waste, a detailed description of the recycling process 
of waste pyrolysis and the pyrolysis gas combustion integrated process is 
provided, which can act as the basis for future research on the subject.},
DOI = {10.32604/EE.2020.010373}
}