Keywords: آسایش حرارتی; Labor study; Warm-humid environment; Thermal comfort; Thermal acceptability; Perceived air quality; Humidity sensation;
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; Sleep environment; Sleep quality; Thermal comfort; Online survey; Field study;
Keywords: آسایش حرارتی; Rural folk house; Thermal comfort; Hot-humid area; Semi-open space; Field study;
Keywords: آسایش حرارتی; Energy poverty; Vulnerability; Urban China; Thermal comfort; Heating infrastructure; Latent class analysis;
Keywords: آسایش حرارتی; High-albedo roofs; Building energy consumption; Thermal comfort; Urban climates; Cooling demand; Energy cost;
Keywords: آسایش حرارتی; Thermal comfort; Energy conservation; Personal comfort system; Heating chair; Leg-warmer;
Keywords: آسایش حرارتی; Energy efficiency; Life cycle assessment; Life cycle cost analysis; Multi-criteria decision making; Thermal comfort; Sustainable buildings;
Keywords: آسایش حرارتی; COP; GSHP; Thermal comfort; Ventilation; Energy saving; Gaussian process regression;
Keywords: آسایش حرارتی; Cabin displacement ventilation; Mixing ventilation; Aircraft passenger cabin; Thermal comfort; Empirical data;
Keywords: آسایش حرارتی; Thermal comfort; Adaptive comfort; Social housing; Temperature limits; ASHRAE; american society of heating, refrigerating, and air-conditioning engineers; BRE; british research establishment; CO2; carbon dioxide; ECSV; sustainable construction standard fo
Keywords: آسایش حرارتی; Thermal comfort; Energy efficiency; Envelope optimisation; Social housing; Insulated envelopes; Air permeability;
Keywords: آسایش حرارتی; Thermal comfort; Personal comfort model; Machine learning; Occupant behavior; Personal comfort system;
Keywords: آسایش حرارتی; Climate change adaptation; Greening strategies; Thermal comfort; Energy consumption; Water resources;
Keywords: آسایش حرارتی; Tree pattern; Thermal comfort; Environmental simulation;
Keywords: آسایش حرارتی; Energy saving; Fabric membranes; Home energy management system (HEMS); Indoor thermal environment; Residential buildings; Retractable membrane ceiling; Thermal comfort;
Keywords: آسایش حرارتی; Low energy building; Perceived control; Thermal comfort;
Keywords: آسایش حرارتی; Thermal comfort; Age of air; Ventilation effectiveness; Vertical temperature gradient; Computational fluid dynamics;
Keywords: آسایش حرارتی; Comfort temperature; Thermal comfort; Gender; Office buildings; Mixed-mode operation;
Keywords: آسایش حرارتی; Thermal comfort; Building energy saving; personal comfort system (PCS); Local heating/cooling; Heated and cooled chair; Corrective power (CP);
Keywords: آسایش حرارتی; Air conditioning assessment; Air leakage performance; Air balance; Thermal comfort;
Keywords: آسایش حرارتی; Climatic zones; Thermal comfort; Underground engineering; Neutral temperature;
Keywords: آسایش حرارتی; Public housing; Low income housing; Indoor air quality; Thermal comfort; Green retrofits; Health impacts;
Keywords: آسایش حرارتی; Thermal mass; Indoor temperature modeling; Thermal comfort; Adaptive comfort zone; Composite climate;
Keywords: آسایش حرارتی; Transport station; Thermal comfort; Steady-state models; Adaptive models; Questionnaire; Semi-outdoor environment; Transient spaces;
Keywords: آسایش حرارتی; Thermal comfort; Heat source; Active chilled beam; Air distribution; Uniformity; ADPI;
Keywords: آسایش حرارتی; Air distribution; Displacement ventilation; Isolation room; Personal exposure; Human breathing; Ventilation effectiveness; Thermal plume; Thermal comfort;
Keywords: آسایش حرارتی; Air ventilation clothing; Thermal comfort; Desk fan; Building energy saving; Cooling strategy; Energy consumption;
Keywords: آسایش حرارتی; Adaptive approach; Thermal comfort; Mathematical model; Schools and traditional buidings; Tropical island;
Keywords: آسایش حرارتی; Thermal comfort; Gender; Office buildings; Air-conditioned buildings; Mixed-mode buildings;
Keywords: آسایش حرارتی; Indoor climate; Ventilation; Thermal comfort; Infiltration; Ozone; Particles;
Keywords: آسایش حرارتی; Older people; Thermal comfort; Residential aged care facilities; Aged care homes; Field study; Dementia;
Keywords: آسایش حرارتی; Pavement; Surface temperatures; Thermal comfort; Pedestrian spaces; City of NiÅ¡; Serbia;
Keywords: آسایش حرارتی; Passive design; Residential building; Parametric analysis; Dynamic simulations; Thermal comfort;
Keywords: آسایش حرارتی; In-situ measurement; Adaptive model; Thermal comfort; Clothing; Metabolic activity; Thermal sensation; Occupancy behaviour; Energy consumption; Residential dwellings; Wireless monitoring;
Keywords: آسایش حرارتی; Post-Occupancy Evaluation; Thermal comfort; Indoor environmental quality; Historic buildings; Museum buildings;
Keywords: آسایش حرارتی; Hybrid ventilation; Night cooling; Thermal comfort; Institutional building; Experimental;
Keywords: آسایش حرارتی; Thermal comfort; Schools; Naturally ventilated classrooms; Adaptive thermal comfort;
Keywords: آسایش حرارتی; UHI mitigation; Green & cool roofs; Coupled WRF-SLUCM; Thermal comfort; UTCI;
Keywords: آسایش حرارتی; Thermal comfort; Acoustic comfort; Visual comfort; Combined comfort index; Classrooms; Questionnaire;
Keywords: آسایش حرارتی; Occupants' behaviour; Thermal comfort; Longitudinal survey; Mixed-mode office; Severe cold area;
Keywords: آسایش حرارتی; Fuel poverty; Fuel obesity; Smart meters; Surveys; Buildings energy simulation; Thermal comfort;
Keywords: آسایش حرارتی; Cabin interior design; Air distribution system; Thermal comfort; CFD; Optimization;
Keywords: آسایش حرارتی; Thermal comfort; Bedroom; Sleep; Model; Control; Sleep quality;
Keywords: آسایش حرارتی; Integrative design; Building envelope optimization; Multi-objective optimization; Design parameters; School classroom; TRNSYS; GenOpt; Visual comfort; Thermal comfort;
Keywords: آسایش حرارتی; Liquid desiccant and evaporative cooling-assisted 100% outdoor air system (LD-IDECOAS); Thermal comfort; Predicted mean vote (PMV); Thermal environment simulation; CAV; Constant air volume; DBT; Dry-bulb temperature [°C]; DEC; Direct evaporative cooler;
Keywords: آسایش حرارتی; Temperature regulation; Energy saving; Thermal comfort; Tree species; ENVI-met;
Keywords: آسایش حرارتی; Thermal environment; Thermal comfort; Thermal adaptation; Different heating stages; Different built environments;
Keywords: آسایش حرارتی; Model predictive control; State-space model; Optimization; Thermal comfort; Building automation and control; Linearization;
Keywords: آسایش حرارتی; Urban park; Thermal comfort; Landscape elements; Thermal sensation; Thermal index; Cold regions of China;
Keywords: آسایش حرارتی; Thermal comfort; Acoustic comfort; Visual comfort; Classrooms; Questionnaire;