Modeling of Thermochemical Processes for Efficient Feedstock Utilization
A special issue of Processes (ISSN 2227-9717). This special issue belongs to the section "Chemical Processes and Systems".
Deadline for manuscript submissions: closed (25 March 2024) | Viewed by 1249
Special Issue Editors
Interests: thermal analysis; TG-DTG; mass spectrometry; kinetic modeling; thermochmemical conversion modeling; renewable energy sources; biomass; waste materials; combustion; pyrolisis; gasification; pellet stoves and boilers; emission control
Interests: biomass; thermochemical conversion; solid state kinetics; reaction mechanisms; catalysis; thermodynamics; energy storage materials; thermal analysis; polymers; hydrogen fuels; physicochemical characterization of materials
Interests: fuel characterization; renewable energy sources; biomass; biofuels; biorefinery; waste materials; pyrolisis; gasification; combustion; pellet stoves and boilers; emission control; decarbnization
Special Issue Information
Dear Colleagues,
To address the issues related to the problems of energy production and the unequal distribution of fossil fuel reserves, it is crucial to more efficiently utilize a variety of feedstocks that are more available, particularly raw biomass, but also the organic component of waste from industrial production or MSW. To achieve this goal, the thermochemical conversion processes of common feedstocks are frequently studied. In spite of this, a thorough procedure of characterizing each type of mentioned raw material is required, as these are considered waste materials of organic origin and require adaptation to a specific process of thermochemical conversion due to their diversity and specificity. Furthermore, the detailed modeling of the thermochemical conversion for a particular feedstock is a crucial step in making the overall energy or material transformation efficient and sustainable. This means that the materials under consideration are not necessarily a source of energy and that other, more advantageous, efficient, and ultimately, economically more favourable, ways of converting them can be identified. This allows for the production of a broader range of value-added products that may be made available to consumers. With the availability of raw materials that have generally uniform uses around the world, this strategy is in line with the modern concept of biorefinery, which enables indirectly lowering global polarization when it comes to energy and feedstock concerns.
Prof. Dr. Nebojša G. Manić
Dr. Bojan Ž. Janković
Prof. Dr. Dragoslava D. Stojiljković
Guest Editors
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Keywords
- thermochemical conversion
- modeling
- feedstocks
- value-added products
- biorefinery concept
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