Keywords: تسریع در ورودی; Entransy dissipation; Entropy generation; Monte Carlo method; Optimization; Transient heat conduction;
مقالات ISI ترجمه شده تسریع در ورودی
Keywords: تسریع در ورودی; Thermal system analysis; Thermal system optimization; Entransy; Entransy dissipation; Entropy generation; Exergy destruction
مقالات ISI تسریع در ورودی (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: تسریع در ورودی; Heat exchanger; Entransy; Entransy dissipation; Distributed coordination; Field synergy principle; Optimization design;
Keywords: تسریع در ورودی; Heat transfer; Crossflow heat exchanger; Distributed coordination; Entransy dissipation; Optimization design; Supercritical pressure CO2 (S-CO2);
Keywords: تسریع در ورودی; Heat exchanger; Supercritical nitrogen; Entransy dissipation; Exergy efficiency; Energy storage;
Keywords: تسریع در ورودی; Sinusoidal ribs; Heat transfer enhancement; Swirl flow; Field synergy; Entransy dissipation;
Keywords: تسریع در ورودی; Entransy dissipation; Entropy production; Least action principle; Heat conduction; Optimization;
Keywords: تسریع در ورودی; Adsorption refrigeration; Multi-stage cycle; Heat recovery; T-Q diagram; Entransy dissipation; Froid à adsorption; Cycle multi-étagé; Récupération de chaleur; Diagramme T-Q; Dissipation d'entransie;
Keywords: تسریع در ورودی; Large-scale dry cooling tower; System optimization; Entransy dissipation; Annual cost;
Keywords: تسریع در ورودی; Multiple twisted tapes; Heat transfer enhancement; Entropy generation; Entransy dissipation; Swirl flow;
Keywords: تسریع در ورودی; Adsorption refrigeration; Multi-stage cycle; Heat recovery; T-Q diagram; Entransy dissipation; Froid à adsorption; Cycle multiétagé; Récupération de chaleur; Diagramme T-Q; Dissipation d'entransie;
Keywords: تسریع در ورودی; Air handling process; Coupled heat and mass transfer; Exergy destruction; Entransy dissipation; Performance optimization;
Keywords: تسریع در ورودی; Field synergy principle; Entransy dissipation; Helically coiled tube; Heat exchanger; Numerical simulation; Heat transfer enhancement;
Keywords: تسریع در ورودی; Compressible fluid; Variable property; Field synergy equation; Entransy dissipation; Optimization
Keywords: تسریع در ورودی; Thermological analysis; Exergy destruction; Entransy dissipation; Performance optimization; Air-conditioning system;
Keywords: تسریع در ورودی; Vaporization process; Enthalpy entransy; Entransy dissipation; Thermal resistance;
Keywords: تسریع در ورودی; Shell and tube heat exchangers; Discontinuous helical baffles; Helix angle; Entropy generation number; Entransy dissipation; Entransy dissipation-based thermal resistance;
Keywords: تسریع در ورودی; Cascaded heat storage; Phase change; Entransy dissipation; Thermodynamic optimization; Heat transfer; Energy efficiency;
Keywords: تسریع در ورودی; Heat exchanger network; Global optimization; Energy conservation; Entransy dissipation; Entropy generation
Keywords: تسریع در ورودی; Heat conduction; Entransy dissipation; Entropy generation; Optimization principle; Cellular automaton;
Keywords: تسریع در ورودی; Light-emitting diode (LED); Heat conduction optimization; Genetic algorithm; Phosphor; Entransy dissipation;
Keywords: تسریع در ورودی; Convective heat transfer; Optimization; Entransy dissipation; Power consumption
Keywords: تسریع در ورودی; Entransy analysis; Entransy dissipation; Entropy generation; Exergy output; Power output;
Keywords: تسریع در ورودی; Entransy analysis; Entransy dissipation; Entropy generation; Entransy efficiency; COP; Exergy efficiency; Irreversible heat pump;
Keywords: تسریع در ورودی; Absorption heat pump; Flow mismatched coefficient; Entransy dissipation; Multi-stage;
Keywords: تسریع در ورودی; Multi-objective optimization; Heat exchanger; Entransy dissipation; Brayton cycle; Genetic algorithm;
Keywords: تسریع در ورودی; Liquid desiccant; Unmatched coefficient; Entransy dissipation; Energy efficiency; Air-conditioning;
Numerical study on novel airfoil fins for printed circuit heat exchanger using supercritical CO2
Keywords: تسریع در ورودی; Heat transfer; Supercritical CO2 (S-CO2); Entransy dissipation; Secondary flow; Printed Circuit Heat Exchanger (PCHE); Field synergy principle;
Heat removal ability for different orientations of single-phase natural circulation loops using the entransy method
Keywords: تسریع در ورودی; Natural circulation; Single-phase flow; Stability analysis; Entransy dissipation;
Reply to “Letter to the editor on 'Temperature-heat diagram analysis method for heat recovery physical adsorption refrigeration cycle - Taking multi-stage cycle as an example'” by A. Bejan
Keywords: تسریع در ورودی; Adsorption refrigeration; Multi-stage cycle; Heat recovery; T-Q diagram; Entransy dissipation; Froid à adsorption; Cycle multiétagé; Récupération de chaleur; Diagramme T-Q; Dissipation d'entransie;
Reply and closure to comments on “Temperature-heat diagram analysis method for heat recovery physical adsorption refrigeration cycle - Taking multi-stage cycle as an example” by M.M. Awad
Keywords: تسریع در ورودی; Adsorption refrigeration; Multi-stage cycle; Heat recovery; T-Q diagram; Entransy dissipation; Froid à adsorption; Cycle multiétagé; Récupération de chaleur; Diagramme T-Q; Dissipation d'entransie;
IEA EBC Annex 59: High temperature cooling and low temperature heating in buildings
Keywords: تسریع در ورودی; High temperature cooling & low temperature heating; Air-conditioning system; Entransy dissipation; Thermal resistance; Energy efficiency;
T–q diagram of heat transfer and heat–work conversion
Keywords: تسریع در ورودی; T–q diagram; Heat transfer; Heat–work conversion; Entransy dissipation; Entransy loss
A thermal environmental analysis method for data centers
Keywords: تسریع در ورودی; Data center; Airflow organization optimization; Entransy dissipation; Minimum thermal resistance
Applicability of entransy dissipation based thermal resistance for design optimization of two-phase heat exchangers
Keywords: تسریع در ورودی; Heat exchanger optimization; Entransy dissipation; Two-phase entransy; Entropy generation; Tube-fin heat exchanger; Microchannel heat exchanger
Optimization principles for two-stream heat exchangers and two-stream heat exchanger networks
Keywords: تسریع در ورودی; Two-stream heat exchangers; Two-stream heat exchanger networks; Entropy generation; Entransy dissipation; Entransy-dissipation-based thermal resistance
Computation of effectiveness of two-stream heat exchanger networks based on concepts of entropy generation, entransy dissipation and entransy-dissipation-based thermal resistance
Keywords: تسریع در ورودی; Two-stream heat exchanger networks; Effectiveness; Entransy dissipation; Entropy generation; Thermal resistance
An entransy dissipation-based optimization principle for building central chilled water systems
Keywords: تسریع در ورودی; Building central chilled water system; Energy efficiency; Entransy dissipation; Thermal conductance; Heat capacity rate
Optimization design of recuperator in a chemical heat pump system based on entransy dissipation theory
Keywords: تسریع در ورودی; Recuperator; Entransy dissipation; Heat exchanger; Genetic algorithm; Isopropanol–Acetone–Hydrogen chemical heat pump
Analyses of entransy dissipation, entropy generation and entransy–dissipation-based thermal resistance on heat exchanger optimization
Keywords: تسریع در ورودی; Heat exchangers; Entransy dissipation; Entropy generation; Thermal resistance; Uniformity factor of temperature difference field
The application of entransy dissipation theory in optimization design of heat exchanger ∗
Keywords: تسریع در ورودی; Entransy dissipation; Entransy dissipation number; Genetic algorithm (GA); Optimization design; Heat exchanger
Minimization of mass for heat exchanger networks in spacecrafts based on the entransy dissipation theory
Keywords: تسریع در ورودی; Heat exchanger networks; Mass minimization; Entransy dissipation; Thermal resistance; Optimization model
Entransy dissipation minimization for one-way isothermal mass transfer processes with a generalized mass transfer law
Keywords: تسریع در ورودی; Isothermal mass transfer; Entransy dissipation; Optimal control; Finite time thermodynamics; Generalized thermodynamic optimization
A thermal resistance analysis on forced convection with viscous dissipation in a porous medium using entransy dissipation concept
Keywords: تسریع در ورودی; Two-equation model; Viscous dissipation; Forced convection; Porous medium; Thermal resistance; Entransy dissipation
A global optimization method for evaporative cooling systems based on the entransy theory
Keywords: تسریع در ورودی; Evaporation; Energy; Heat transfer; Optimization; Entransy dissipation; Global design
Analysis of entransy dissipation in heat exchangers
Keywords: تسریع در ورودی; Heat exchangers; Entransy dissipation; Entransy-dissipation-based thermal resistance; Entropy generation; Optimization
Effectiveness–thermal resistance method for heat exchanger design and analysis
Keywords: تسریع در ورودی; Heat exchanger; Thermal resistance; Entransy dissipation; Entropy generation
Optimal paths for minimizing entransy dissipation during heat transfer processes with generalized radiative heat transfer law
Keywords: تسریع در ورودی; Heat transfer process; Entransy dissipation; Optimal control; Finite time thermodynamics
Optimization for a heat exchanger couple based on the minimum thermal resistance principle
Keywords: تسریع در ورودی; Heat exchanger couple; Optimization; Entransy dissipation; Entropy generation; Minimum thermal resistance principle
Optimization principles for convective heat transfer
Keywords: تسریع در ورودی; Convective heat transfer; Entropy generation; Entransy dissipation; Optimization principle