... power cycles applications. supercritical carbon dioxide test rig temperature measurement thermal management uncertainties heat exchanger waste heat recovery transcritical CO 2 cycle regulation Proceedings of ASME Turbo Expo 2022 Turbomachinery Technical Conference and Exposition GT2022...

... to CSP and waste heat recovery (WHR). To evaluate the competitiveness of sCO 2 cycles relative to other competing technologies, mainly steam and ORC, a specific techno-economic analysis is needed to fairly compare the different technologies for each application, in order to find the most appropriate...

... Abstract Various supercritical carbon dioxide (sCO 2 ) power cycles are an emerging bottoming cycle technology for gas turbine waste heat recovery with potential advantages relative to Organic Rankine Cycle (ORC) systems, including improved performance, compactness, improved economics...

... Abstract The accelerating growth of electricity demand necessitates looking for potential waste heat recovery solutions in production industries. Significant potential for efficient waste heat recovery is observed in the cement manufacturing industry. Based on the waste heat source temperatures...

... based expander is designed that accommodates variable speed operation. The referred design includes mean-line calculations and three-dimensional computational fluid dynamics (CFD) based numerical simulations at design and off design point conditions. organic Rankine cycle waste heat recovery...

... an economical saving with respect to the CO 2 configuration. organic Rankine cycle CO 2 supercritical gas turbine oil and gas waste heat recovery cogeneration Proceedings of ASME Turbo Expo 2021 Turbomachinery Technical Conference and Exposition GT2021 June 7-11, 2021, Virtual, Online GT2021...

.... advanced exergy analysis supercritical carbon dioxide cycle waste heat recovery gas turbine single-objective optimization Proceedings of ASME Turbo Expo 2021 Turbomachinery Technical Conference and Exposition GT2021 June 7-11, 2021, Virtual, Online GT2021-59195 ADVANCED EXERGY ANALYSIS...

... Abstract Waste heat recovery (WHR) can represent a good solution to increase overall performance of energy systems, even more in case of small systems. The exhaust gas at the outlet of micro gas turbines (MGTs) has still a large amount of thermal energy that can be converted into mechanical...

... Abstract In an energetic scenario where both distributed energy systems and smart energy grids gain increasing relevance, the research focus is also on the detection of new solutions to increase overall performance of small-scale energy systems. Waste heat recovery (WHR) can represent a good...

... performed through a CFD solver. Finally, a comparison of the plant performances for each fuel blend have been reported, along with opportunities and critical aspects related to power plant integration. micro gas turbine organic Rankine cycle waste heat recovery R1336mzz-Z biomass gasification CFD...

... as the basis for the detailed design of the components of an ORC-based power plant focused on increasing the overall efficiency of petroleum distillation processes. working fluid selection waste heat recovery Organic Rankine cycle axial turbines petroleum distillation WORKING FLUID SELECTION...

... show that the study case results footprint of the plant, at the same time offering a solution though with lower efficiencies. NG, regasification, exergy, waste heat recovery, specific energy to produce LNG [kWh·kg-LNG ] energy efficiency [dimensionless] LNG efficiency of LNG supply chain...