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International journal of heat and mass transfer, ISSN 0017-9310, 2018, Volume 126, pp. 156 - 163
.... Roles of height ratio, pitch ratio and Reynolds number on variation of nanofluid hydrothermal treatment, second law efficiency (ηII) and exergy loss (Xd) were presented... 
Exergy loss | Twisted tape turbulator | Second law performance | Nanofluid | Heat transfer | NATURAL-CONVECTION | TRANSFER ENHANCEMENT | FLUID-FLOW | ELECTRIC-FIELD | FREE-CONVECTION | SUPERHEATED STEAM | MIXED CONVECTION | ENGINEERING, MECHANICAL | ENTROPY GENERATION | MECHANICS | THERMODYNAMICS | POROUS ENCLOSURE | MAGNETIC-FIELD
Journal Article
International journal of heat and mass transfer, ISSN 0017-9310, 2018, Volume 125, pp. 1087 - 1095
....•Bejan number and exergy loss decreases with increase of vapor quality. In this research, entropy generation and exergy loss of nano-refrigerant condensation process inside a horizontal tube is investigated experimentally... 
Nano-refrigerant | Exergy loss | Condensation | Heat transfer | Entropy generation | Experimental approach | CONVECTIVE FLOW | HEAT-TRANSFER ENHANCEMENT | PERFORMANCE | TUBES | SIMULATION | ENGINEERING, MECHANICAL | PRESSURE-DROP | NANOFLUID | MECHANICS | THERMODYNAMICS | THERMAL-RADIATION | POROUS CAVITY | EXCHANGER
Journal Article
Energy (Oxford), ISSN 0360-5442, 2015, Volume 93, pp. 10 - 19
An optimization model based on material balance and energy balance for a blast furnace iron-making process is established, in which exergy loss minimization is taken as optimization objective... 
Iron-making process | Energy flow | Exergy loss | Exergy flow | Blast furnace | Optimization | MULTIOBJECTIVE OPTIMIZATION | ENERGY & FUELS | ENTROPY GENERATION MINIMIZATION | GAS RECYCLING CONDITIONS | CO2 EMISSIONS | THERMODYNAMICS | EUROPEAN IRON | EMISSION REDUCTION | IMPROVEMENTS | EFFICIENCY | CONSUMPTION | Furnaces | Comparative analysis | Explosions | Ships | Natural gas | Slags | Coal | Minimization | Blast furnace gas | Exergy | Basicity
Journal Article
Energy, ISSN 0360-5442, 12/2017, Volume 140, pp. 253 - 260
... ptc4.1 presents a method to estimate energy loss terms and the first law efficiency. This work presents a similar method to estimate exergy loss terms and exergitic efficiency... 
Boiler | Exergy | Power plant | Energy audit | Loss | SYSTEM | ENERGY | THERMODYNAMICS | ENERGY & FUELS | POWER-PLANT | Electric power-plants | Heating | Analysis | Equipment and supplies | Mechanical engineering | Methods | Power plants
Journal Article
Solar energy, ISSN 0038-092X, 2015, Volume 118, pp. 197 - 208
....•A modified exergy efficiency of PVT water collector is obtained.•Our exergy analysis is based on exergy loss terms... 
Exergy loss rate | Solar photovoltaic thermal (PVT) water collector | Exergy efficiency | SYSTEM | ENERGY | HEATER | ENERGY & FUELS | PV/T AIR COLLECTOR | Solar energy industry | Analysis
Journal Article
Energy, ISSN 0360-5442, 11/2017, Volume 138, pp. 228 - 237
.... Heat and mass flow rate due to convection, radiation, evaporation and respiration are calculated and expressed in terms of exergy loss... 
Exergy loss | Thermal comfort | Indoor environment | Exergy analysis | Heat transfer | Mass transfer | HUMAN-BODY | CONSUMPTION RATE | ENERGY & FUELS | PERFORMANCE | ENVIRONMENT | AIR | ENTROPY GENERATION | THERMODYNAMICS | TEMPERATURES | SYSTEMS | BUILDINGS | INDEXES | Thermodynamics | Mechanical engineering | Force and energy
Journal Article
Journal of molecular liquids, ISSN 0167-7322, 2018, Volume 262, pp. 104 - 110
Journal Article
Neurocomputing (Amsterdam), ISSN 0925-2312, 2019, Volume 332, pp. 100 - 110
...” in the process of optimization without addressing the issue of energy quality. Based on energy quality, this paper analyzes exergy loss and exergy efficiency of every component of the crude oil pipeline transportation system... 
Energy consumption | Exergy loss | Optimization | Oil pipeline transportation system | COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE | Petroleum mining | Pipe lines | Energy use | Algorithms | Transportation industry | Analysis | Transportation | Mathematical optimization | Petroleum
Journal Article
Applied thermal engineering, ISSN 1359-4311, 02/2018, Volume 130, pp. 1580 - 1589
....•Special focus is laid on the modeling of the oil influence.•A loss analysis in terms of entropy generation and exergy loss is carried... 
CFD | Compressor | Exergy | Simulation | Loss analysis | ENTROPY GENERATION | LUBRICATION | MECHANICS | THERMODYNAMICS | ENERGY & FUELS | AVERAGE FLOW MODEL | ENGINEERING, MECHANICAL
Journal Article
Solar Energy, ISSN 0038-092X, 06/2015, Volume 116, pp. 323 - 336
.... This study aims to improve on convective losses in pane spacing in a covered panel by substituting the inside Air with different gases and also optimizing the distance between panes... 
Convective losses | PVT panel | Argon | Xenon | DESIGN | DOMESTIC HOT-WATER | EXERGY | YIELD | ENERGY & FUELS | COLLECTOR | PERFORMANCE | SYSTEMS | Solar energy industry | Analysis
Journal Article
Applied Thermal Engineering, ISSN 1359-4311, 07/2017, Volume 121, pp. 294 - 301
•Behavior of the design parameters on heat transfer and exergy loss of the heat exchanger is assessed... 
Helical tube heat exchanger | Exergy loss | Taguchi approach | Heat transfer | Optimization | ENERGY & FUELS | PERFORMANCE | CONVECTION | DESIGN PARAMETERS | ENGINEERING, MECHANICAL | LAMINAR-FLOW | NANOFLUIDS | MECHANICS | THERMODYNAMICS | TAGUCHI METHOD | COILED TUBE
Journal Article
International Journal of Hydrogen Energy, ISSN 0360-3199, 01/2017, Volume 42, Issue 2, pp. 1287 - 1297
This modeling study addresses the question, whether HCCI piston engines can be used as chemical reactors in a polygeneration process. In this context, a... 
HCCI | EGR | Exergy | Polygeneration | ELECTROCHEMISTRY | ACETYLENE | EMISSIONS | ENERGY & FUELS | PERFORMANCE | SYNGAS PRODUCTION | CHEMISTRY, PHYSICAL | COMPRESSION IGNITION ENGINE | POWER | NATURAL-GAS | METHANE | HYDROGEN-PRODUCTION | PARTIAL OXIDATION | Methane | Hydrogen | Combustion
Journal Article
International Journal of Heat and Mass Transfer, ISSN 0017-9310, 05/2013, Volume 60, Issue 1, pp. 756 - 762
...° in Reynolds number (Re) range of 10,000–34,000. Heat transfer, pressure loss and exergy analysis were made for the conditions with and without turbulators and compared to each other. Some empirical correlations expressing the results were also derived and discussed. 
Exergy loss | Turbulators | NTU | Concentric heat exchanger | TUBE | TRANSFER ENHANCEMENT | FLUID-FLOW | NUMERICAL-ANALYSIS | ENGINEERING, MECHANICAL | PRESSURE-DROP | ENTROPY GENERATION | MECHANICS | THERMODYNAMICS | TWISTED-TAPE | SURFACE | THERMAL PERFORMANCE ANALYSIS | EXCHANGER | Energy conservation | Basketball (Professional) | Analysis
Journal Article