Review of higher heating value of municipal solid waste based on analysis and smart modelling
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- @Article{DASHTI:2021:RSER,
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author = "Amir Dashti and Abolfazl Sajadi Noushabadi and
Javad Asadi and Mojtaba Raji and
Abdoulmohammad Gholamzadeh Chofreh and Jiri Jaromir Klemes and Amir H. Mohammadi",
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title = "Review of higher heating value of municipal solid
waste based on analysis and smart modelling",
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journal = "Renewable and Sustainable Energy Reviews",
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volume = "151",
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pages = "111591",
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year = "2021",
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ISSN = "1364-0321",
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DOI = "doi:10.1016/j.rser.2021.111591",
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URL = "https://www.sciencedirect.com/science/article/pii/S1364032121008686",
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keywords = "genetic algorithms, genetic programming, Higher
heating value, Municipal solid waste, Ultimate
analysis, Smart modelling, Energy recovery,
Regression",
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abstract = "Energy recovery from 252 kinds of solid waste
originating from various geographical areas under
thermal waste-to-energy operation is investigated. A
fast, economical, and comparative methodology is
presented for evaluating the heating values resulted
from burning municipal solid waste (MSW) based on prior
knowledge, specialist experience, and data-mining
methods. Development of models for estimating higher
heating values (HHVs) of 252 MSW samples based on the
ultimate analysis is conducted by simultaneously using
five nonlinear models including Radial Basis Function
(RBF) neural network in conjunction with Genetic
Algorithm (GA), namely GA-RBF, genetic programming
(GP), multivariate nonlinear regression (MNR), particle
swarm optimisation adaptive neuro-fuzzy inference
system (PSO-ANFIS) and committee machine intelligent
system (CMIS) models to increase the accuracy of each
model. Eight different equations based on MNR are
developed to estimate energy recovery capacity from
different MSW groups (e.g., textiles, plastics, papers,
rubbers, mixtures, woods, sewage sludge and other
waste). A detailed investigation is conducted to
analyse the accuracy of the models. It is indicated
that the CMIS model has the best performance comparing
the results obtained from different models. The R2
values of the test dataset for GA-RBF are 0.888, for GP
0.979, for MNR 0.978, for PSO-ANFIS 0.965, and for CMIS
0.985. The developed models with an acceptable accuracy
would be followed by a better estimation of HHV and
providing reliable heating value for an automatic
combustion control system. The results obtained from
this study are beneficial to design and optimise
sustainable thermal waste-to-energy (WTF) processes to
accelerate city transition into a circular economy",
- }
Genetic Programming entries for
Amir Dashti
Abolfazl Sajadi Noushabadi
Javad Asadi
Mojtaba Raji
Abdoulmohammad Gholamzadeh Chofreh
Jiri Jaromir Klemes
Amir H Mohammadi
Citations