Detail publikace
Designing Integrated Equipment for ‘Waste-to-Energy’ Processes
TUREK, V. JEGLA, Z. KILKOVSKÝ, B.
Anglický název
Designing Integrated Equipment for ‘Waste-to-Energy’ Processes
Typ
abstrakt
Jazyk
en
Originální abstrakt
Global climate change forces the process industry to increase its effort to further reduce energy consumption, emissions, and waste production, thus leading to a strong push towards sustainability and more efficient use or disposal of the generated wastes. Modern approaches to the integrated and simulation-driven equipment design, based on efficient, up-to-date modelling and experimental techniques, represent a new trend in the development of process apparatuses and technologies. This trend, in turn, contributes significantly to the rethinking of the current and future industrial and process systems. Within this perspective, energy utilisation of wastes (“waste-to-energy”) is discussed, where the processes and equipment tend to feature a much higher level of integration than is usual in other branches or industries. Such modern integrated equipment (MIE) generally offers improved efficiency and multifunctionality (i.e., multiple unit operations are aggregated into a single apparatus).
Anglický abstrakt
Global climate change forces the process industry to increase its effort to further reduce energy consumption, emissions, and waste production, thus leading to a strong push towards sustainability and more efficient use or disposal of the generated wastes. Modern approaches to the integrated and simulation-driven equipment design, based on efficient, up-to-date modelling and experimental techniques, represent a new trend in the development of process apparatuses and technologies. This trend, in turn, contributes significantly to the rethinking of the current and future industrial and process systems. Within this perspective, energy utilisation of wastes (“waste-to-energy”) is discussed, where the processes and equipment tend to feature a much higher level of integration than is usual in other branches or industries. Such modern integrated equipment (MIE) generally offers improved efficiency and multifunctionality (i.e., multiple unit operations are aggregated into a single apparatus).
Klíčová slova anglicky
Waste-to-Energy; Integrated Equipment; Computational Fluid Dynamics; Finite Volume Method
Vydáno
30.08.2021
Nakladatel
Department of Mechanical Engineering, University of Thessaly
Místo
Volos, Greece
ISSN
2653-8911
Ročník
8
Číslo
1
Strany od–do
103–103
Počet stran
1