Thermodynamic Optimization of Industrial Energy Systems
Materialtyp:
ArtikelUtgivningsinformation: Basel MDPI - Multidisciplinary Digital Publishing Institute 2024Beskrivning: 1 electronic resource (276 p.)Innehållstyp: - text
- computer
- online resource
- 9783725828470
- 9783725828487
- Reference, Information and Interdisciplinary subjects
- Research and information: general
- Mathematics and Science
- Astronomy, space and time
- BECCS
- MILP superstructure
- ProSimPlus®
- Tesla valve
- absorption refrigeration cycle
- advanced exergy-based analysis
- annealing continuous furnace
- artificial neural network
- bio-energy
- biofuels
- biomass gasification
- bioproducts
- biorefinery
- carbon credit
- carbon dioxide
- cogeneration plant
- combined cooling and power
- computational fluid dynamics
- concentrating solar power
- decarbonization
- diesel engine
- diodicity
- energy integration
- exergoeconomic analysis
- exergoeconomic correlation
- exergoeconomic cost assessment
- exergoeconomic factor
- exergy
- exergy analysis
- exergy destruction
- externally fired gas turbine
- heat exchanger
- heat integration
- machine learning
- medical waste
- multi-objective optimization
- operating scenarios
- optimization
- optimum configuration
- pinch analysis
- plasma gasification
- polygeneration
- process integration
- silicon arc furnace
- sugarcane bagasse
- supercritical CO2
- supercritical cycle
- system integration
- techno–economic assessment
- thermo-hydraulic performance
- waste heat recovery
Open Access Unrestricted online access star
This reprint, entitled "Thermodynamic Optimization of Industrial Energy Systems", explores the application of thermodynamic principles and process integration methods to enhance energy efficiency and minimize environmental impact in industrial processes. It bridges thermodynamics and engineering design, offering practical examples of energy system optimization approaches. By focusing on sustainability and innovation, this equips professionals and researchers with the knowledge needed to meet energy transition challenges in a rapidly evolving industrial landscape.
Creative Commons Licence cc by cc https://creativecommons.org/licenses/by/4.0/
eng
Freely available e-book