Keywords: چرخ دیزکستر; Desiccant wheel; Analytic solution; Gas-side resistance model; Split ratio; Linearization of relative humidity lines;
مقالات ISI چرخ دیزکستر (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: چرخ دیزکستر; Substrate; Material; Shape; Desiccant wheel; Performance;
Keywords: چرخ دیزکستر; Desiccant wheel; Isotherm, Shape factor; Adsorption capacity; Rotational speed; Regeneration temperature; Roue déshydratante; Isotherme; Facteur de forme; Capacité d'adsorption; Vitesse de rotation; Température de régénération;
Keywords: چرخ دیزکستر; Desiccant wheel; Non-adiabatic process; Dehumidification; Air conditioning;
Keywords: چرخ دیزکستر; Desiccant evaporative cooling (DEC); Desiccant wheel; Solar thermal; Air-conditioning; Heat pump; Monitoring; Hybrid;
Keywords: چرخ دیزکستر; Desiccant; Gravimetric method; Desiccant coated heat exchanger; Desiccant wheel; Isothermal adsorption/desorption;
Keywords: چرخ دیزکستر; DB; dry bulb temperature; DCS; desiccant cooling system; ERU; energy recovery unit; HK; Hong Kong; M1 â¼Â 3; operating modes of the DCS; OF; Office; RD; regular density; RH; relative humidity; RS; restaurant or sports center; SG; Singapore; WB; wet bulb
Keywords: چرخ دیزکستر; Air-conditioning system; Desiccant wheel; Precooling; High-temperature and high-humidity environment; Système de conditionnement d'air; Roue déshydratante; Pré-refroidissement; Environnement à haute température et à forte humidité;
Keywords: چرخ دیزکستر; Exergy; Desiccant wheel; Evaporative cooling; Two stage cycle; Heat recovery;
Keywords: چرخ دیزکستر; Solar desalination; Humidification-dehumidification; Desiccant wheel; Theoretical;
Keywords: چرخ دیزکستر; Photovoltaic thermal collector; Phase change materials; Desiccant wheel; Regeneration; Feasibility study;
Keywords: چرخ دیزکستر; Desiccant wheel; Stage number; Area ratio; Heat sources; Performance; Roue déshydratante; Nombre d'étapes; Rapport de surface; Sources de chaleur; Performance;
Keywords: چرخ دیزکستر; Coefficient of performance; Hybrid cooling; Reactivation heat; Desiccant wheel; Moisture removal rate;
Keywords: چرخ دیزکستر; Desiccant wheel; air compressor; waste heat; heat recovery; compression heat.;
Keywords: چرخ دیزکستر; Desiccant wheel; dehumidification; waste heat; air compressor; rotary dehumidifier; renewable energy; effectiveness;
Keywords: چرخ دیزکستر; Desiccant wheel; Humidity swing; Dehumidification; Air conditioning for greenhouse; Temperature rise;
Keywords: چرخ دیزکستر; Desiccant wheel; Purge angle; Mathematical model; Operating parameters; Design parameters;
Keywords: چرخ دیزکستر; Desiccant wheel; Polymer desiccant; Experiment; Dimensionless parameter; Similarity;
Keywords: چرخ دیزکستر; Desiccant wheel; Low temperature activated systems; Design of experiments;
Keywords: چرخ دیزکستر; Desiccant wheel; Air conditioning; Borehole heat exchanger; Experimental;
Keywords: چرخ دیزکستر; Desiccant wheel; Two-stage system; Heating source temperature; Exergy; Unmatched coefficient;
Keywords: چرخ دیزکستر; Desiccant wheel; Drying; Simulation; Control; Off-design; Part load; Roue déshydratante; Séchage; Simulation; Régulation; Hors-conception; Charge partielle;
Keywords: چرخ دیزکستر; Desiccant wheel; Low temperature activated systems; Moisture removal capacity; Sensible heat ratio; Design of experiments;
Keywords: چرخ دیزکستر; Multi-scale modeling; Desiccant wheel; Energy recovery; Molecular dynamics simulation; Hybrid adsorbent;
Keywords: چرخ دیزکستر; Solar desiccant cooling; Desiccant wheel; Dynamic simulation; Thermo-economic analysis; Parametric assessment;
Keywords: چرخ دیزکستر; Desiccant wheel; Adsorption; Regeneration; Purge sector angle; Direction of rotation; EXP; experimental; PDE; partial differential equation; SIM; simulation; RS; regeneration sector; PS; process sector;
Keywords: چرخ دیزکستر; CO2; Trans-critical cycle; Desiccant wheel; Hybrid system; Coefficient of Performance; Simple Pay Back Period; Discount Pay Back Period; TEWI;
Keywords: چرخ دیزکستر; Desiccant wheel; Experimental data; Manufacturer software; Effectiveness parameters; Rotation speed;
Keywords: چرخ دیزکستر; Desiccant wheel; Exhaust heat; Blast furnace; Feasibility analysis; Economic analysis
Keywords: چرخ دیزکستر; Entropy generation; Thermodynamic analysis; Irreversibility; Desiccant wheel
Keywords: چرخ دیزکستر; Desiccant wheel; Number of stages; Heat source temperature; Exergy destruction; Unmatched coefficient
Keywords: چرخ دیزکستر; Desiccant wheel; Regeneration temperature; Exergy destruction; Unmatched coefficient; Multi-stage;
Keywords: چرخ دیزکستر; Desiccant wheel; Reversible process; Performance improvement; Exergy destruction; Exergy efficiency and COP
Keywords: چرخ دیزکستر; Desiccant wheel; High temperature heat pump; Energy consumption; Energy saving;
Keywords: چرخ دیزکستر; Desiccant evaporative cooler; Air conditioning; Exergy; Hot and humid climate; Desiccant wheel; Refroidisseur évaporatif à déshydratant; Conditionnement d'air; Exergie; Climat chaud et humide; Roue déshydratante;
Keywords: چرخ دیزکستر; Desiccant wheel; Variable Properties Model; Constant Properties Model; Mathematical model;
Keywords: چرخ دیزکستر; Desiccant wheel; Internal cooling; Non-adiabatic; Air-conditioningRoue déshydratante; Conditionnement d'air; Non-adiabatic; Refroidissement interne
Keywords: چرخ دیزکستر; Desiccant wheel; Dynamic simulation; Simplified approach; Interpolation procedures;
Keywords: چرخ دیزکستر; Desiccant wheel; Heat pump; Dehumidification; Performance index; Regression model
Keywords: چرخ دیزکستر; Desiccant wheel; Experimental data; Effectiveness method; Validation; Empirical correction;
Keywords: چرخ دیزکستر; Desiccant wheel; Experimental study; Moisture removal capacity; Latent coefficient of performanceRoue déshydratante; Etude expérimentale; Capacité de déshumidification; Coefficient de performance latent
Keywords: چرخ دیزکستر; Analytical model; Desiccant wheel; Adsorption; Dehumidification; Regeneration; RotaryModèle analytique; Roue déshydratante; Adsorption; Déshumidification; Régénération; Rotatif
Keywords: چرخ دیزکستر; Hybrid system; Dehumidification; Desiccant wheel; Desiccant evaporative cooling
Keywords: چرخ دیزکستر; Desiccant wheel; Performance parameters; Experimental analysis; Rotational speed;
Keywords: چرخ دیزکستر; Desiccant wheel; Effectiveness method; Simplified simulation;
Keywords: چرخ دیزکستر; Desiccant wheel; High temperature heat pump; Coefficient of performance;
Keywords: چرخ دیزکستر; Adsorption; Desiccant cooling; Desiccant wheel; Modelling; Identification; CHP; combined heat and power; DEC; desiccant and evaporative cooling; HVAC; heating ventilation and air conditioning; PGC; pseudo-gas side controlled (heat and mass transfer coeffi
Comparison of the performance of two different DOAS configurations involving conventional and renewable energies
Keywords: چرخ دیزکستر; Desiccant wheel; Solar air collector; TRNSYS; Indirect evaporative cooling; EES;
Energy saving potential of a hybrid HVAC system with a desiccant wheel activated at low temperatures and an indirect evaporative cooler in handling air in buildings with high latent loads
Keywords: چرخ دیزکستر; Hybrid system; Desiccant wheel; Indirect evaporative cooler; High latent loads; Climate zones;
Can a Clean-Air Heat Pump (CAHP) maintain air purification capability when using polluted air for regeneration?
Keywords: چرخ دیزکستر; Desiccant wheel; Air cleaning; Polluted regeneration air;