Keywords: آسایش حرارتی; Thermal comfort; Predicted mean vote (PMV); Photovoltaic wall; Thermo-electric air duct; Hot-humid tropics;
مقالات ISI آسایش حرارتی (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: آسایش حرارتی; Window systems; Responsive glazing; Dynamic component; PCM; Thermotropic glass; Switchable glazing; Solar factor; g value; Energy performance; Thermal comfort; PMV;
Keywords: آسایش حرارتی; Thermal comfort; Classrooms; Air conditioning; Free-running; Adaptive behaviour;
Keywords: آسایش حرارتی; Energy; Simulation; Museum; ASHRAE; Thermal comfort;
Keywords: آسایش حرارتی; In-situ measurement; PMV; Thermal comfort; Clothing; Metabolic activity; Thermal sensation; Occupancy behaviour; Energy consumption; Residential dwellings; Wireless monitoring.;
Keywords: آسایش حرارتی; Urban measures, climate adaptation; Thermal comfort; Hot weather;
Keywords: آسایش حرارتی; Sensitivity analysis; Output indices; Thermal comfort; Passive design; Indoor environment;
Keywords: آسایش حرارتی; Solar combi-systems; Thermal comfort; Underfloor heating; Collector loop; Heat delivery loop; Tank losses; Distribution losses; Overheating; Heat losses;
Keywords: آسایش حرارتی; Air movement; Automated fan control; Thermal comfort; Personal control; Metabolic rate;
Keywords: آسایش حرارتی; Windcatcher; Natural ventilation; Passive cooling; Wind tower; Thermal comfort; Indoor air quality (IAQ); Badgir;
Keywords: آسایش حرارتی; Phase-change material; Shape-stabilized PCM; Thermal comfort; Heating load;
Keywords: آسایش حرارتی; Humid response; Elevated temperature; Hot-humid climate; Thermal comfort;
Keywords: آسایش حرارتی; Energy performance of buildings; Urban temperatures; Thermal comfort; Urban heat island;
Keywords: آسایش حرارتی; Temperate zone; Thermal environment; Thermal comfort; Clothing insulation; Winter;
Keywords: آسایش حرارتی; Personalized ventilation; Thermal comfort; Nozzle pattern shape; Thermal manikin;
Keywords: آسایش حرارتی; Thermal comfort; HVAC energy; Dynamic temperature set-point; Model predictive control; Mean radiant temperature; Open-plan office;
Keywords: آسایش حرارتی; Thermoregulation model; The Chinese elderly; Physiological parameters; Skin temperatures; Thermal comfort;
Keywords: آسایش حرارتی; Green building; Natural ventilation; Thermal comfort; DesignBuilder; Validation; Window parameters;
Keywords: آسایش حرارتی; Thermal comfort; Air speed; Acceptable thermal environment; Lying at rest; Hot-humid area;
Keywords: آسایش حرارتی; Thermal comfort; Thermal sensation; Neutral temperature; PMV; AMV;
Keywords: آسایش حرارتی; Low energy; Residential; Thermal comfort; Environmental attitudes; Energy rating; Simulation;
Keywords: آسایش حرارتی; Overheating risk; Climate change; Residential building stock; Thermal comfort; Resilience; New metrics;
Keywords: آسایش حرارتی; Meteorological data; Information; Knowledge; Sustainable design; Energy efficiency; Thermal comfort;
Keywords: آسایش حرارتی; Thermal comfort; Mixed-mode buildings; Fully air-conditioning environments; Humid subtropical climate;
Keywords: آسایش حرارتی; Thermal comfort; Thermal sensation; Aging; Elderly; Temperature; Heat stroke; Climate change; Health;
Keywords: آسایش حرارتی; Higher temperature setpoints; Air-conditioning; Cognitive load; Thermal comfort;
Keywords: آسایش حرارتی; Sensible heat release; Human subjects; Thermal manikins; Thermal comfort; Heat removal efficiency; Displacemant ventilation;
Keywords: آسایش حرارتی; Thermal sensation; Air movement sensation; Thermal comfort; Nozzle air supply; Airflow rate; Aircraft cabin;
Keywords: آسایش حرارتی; Multi-objective optimization; NSGA-II; Energy consumption; Thermal comfort; Hybrid ventilation; High-performance cluster application;
Keywords: آسایش حرارتی; Natural night ventilation; Cross ventilation; Thermal comfort; Thermal inertia; Passive cooling; Vernacular architecture; Mediterranean climate;
Keywords: آسایش حرارتی; Thermal comfort; Discomfort index; Living environment; Remote sensing; Image sharpening; Fuzhou;
Keywords: آسایش حرارتی; Thermal comfort; Hospitals and shopping centers; Natural ventilation; Madagascar island;
Keywords: آسایش حرارتی; Thermal comfort; PMV; Adaptive model; Mixed-mode; Offices;
Keywords: آسایش حرارتی; Adaptive model; Control strategies; Residential building; Natural ventilation; Passive cooling; Shading control; Ventilative cooling; Smart building; Thermal comfort; Indoor air quality;
Keywords: آسایش حرارتی; Occupant satisfaction; Survey; Indoor environmental quality; Radiant systems; Air systems; Post-occupancy evaluation; Thermal comfort; Temperature satisfaction; Acoustic satisfaction; Acoustic performance;
Keywords: آسایش حرارتی; Thermal comfort; Visual comfort; Spatio-temporal; Solar radiation; Classrooms;
Keywords: آسایش حرارتی; Building integrated vegetation; Bioclimatic design; Microclimate mitigation; Building energy retrofit; Social housing renovation; Thermal comfort;
Keywords: آسایش حرارتی; Building performance; Egyptian; Energy; Indoor environment; Thermal comfort; Stock modelling; Simulation; Calibration; Uncertainty;
Keywords: آسایش حرارتی; Hot-arid climate; Courtyard; Passive cooling system; Shading performance; Thermal comfort; Numerical method; Design model; Iran;
Keywords: آسایش حرارتی; Passive cooling; Cooling tower; Thermal comfort; Thermally activated building system; Evaporative cooling; Energy conservation;
Keywords: آسایش حرارتی; Natural ventilation; CFD; Balcony; Thermal comfort; Single-sided ventilation; Cross ventilation;
Keywords: آسایش حرارتی; Large glazed space; Airport terminal; Questionnaire; Field measurement; Thermal comfort; Dynamic thermal model; Lighting model and lighting quality;
Keywords: آسایش حرارتی; Thermal comfort; Refugee camps; Arabic survey; Field study; Jordan; TSV; thermal sensation vote; TPV; thermal preference vote; PMV; predicted mean vote;
Keywords: آسایش حرارتی; Cost-optimal renovation; Productivity; Thermal comfort; Energy performance; Low-carbon office building; Multi-objective building performance optimization;
Keywords: آسایش حرارتی; Urban green spaces; Landscape parameters; Thermal comfort; Cooling effect; Energy saving; Beijing;
Keywords: آسایش حرارتی; Natural ventilation; Indoor air quality; Thermal comfort; Window opening; Adaptive actions; School building automation;
Keywords: آسایش حرارتی; Energy saving; Thermal comfort; Local exhaust ventilation; Displacement ventilation;
Keywords: آسایش حرارتی; Thermal comfort; Human thermal balance; PMV model; CFD simulation;
Keywords: آسایش حرارتی; Evaporative cooler; Glazing performance; Solar chimney; Radiation asymmetry; Thermal comfort;
Keywords: آسایش حرارتی; Thermal comfort; Energy utilization; Air temperature non-uniformity; TAC; Envelope thermal load; Sleeping environments;