Indoor Environmental Quality (IEQ)

Parent: Center for the Built Environment

eScholarship stats: History by Item for November, 2024 through February, 2025

ItemTitleTotal requests2025-022025-012024-122024-11
3f4599hxThe skin's role in human thermoregulation and comfort1,186238309307332
4qq2p9c6Developing an adaptive model of thermal comfort and preference1,156261279274342
2048t8nnClimate, comfort, & natural ventilation: a new adaptive comfort standard for ASHRAE standard 553809310186100
2gq017pbWorkspace satisfaction: The privacy-communication trade-off in open-plan offices36997868799
2m34683kA better way to predict comfort: the new ASHRAE standard 55-2004360809682102
11m0n1wtHuman thermal sensation and comfort in transient and non-uniform thermal environments31194608077
2tm289vbThermal sensation and comfort models for non-uniform and transient environments: Part III: whole-body sensation and comfort308856348112
5kz1z9cgIndoor Humidity and Human Health--Part I: Literature Review of Health Effects of Humidity-Influenced Indoor Pollutants29675665798
6s44510dCeiling Fan Design Guide28893756357
2kd0135tAnalysis of the accuracy on PMV – PPD model using the ASHRAE Global Thermal Comfort Database II27656767371
78v8055hIndoor air movement acceptability and thermal comfort in hot-humid climates27585606763
7897g2f8Air quality and thermal comfort in office buildings: Results of a large indoor environmental quality survey26863816163
89m1h2dgModeling the comfort effects of short-wave solar radiation indoors24859725661
9rf7p4bsOccupant satisfaction with indoor environmental quality in green buildings24074524371
13s1q2xcExtending air temperature setpoints: Simulated energy savings and design considerations for new and retrofit buildings23960584477
98n759drEvaluation of the cooling fan efficiency index.23346724174
5ts1r442Thermal Adaptation in the Built Environment: a Literature Review22355515859
7hx9338zReview of fan-use rates in field studies and their effects on thermal comfort, energy conservation, and human productivity21931735461
3sq8z441A model of human physiology and comfort for assessing complex thermal environments21864604648
3338m9qfDynamic predictive clothing insulation models based on outdoor air and indoor operative temperatures18857523742
0wb1v0ssIndoor environmental quality surveys. A brief literature review.17835415151
18d174zsPersonal comfort models—A new paradigm in thermal comfort for occupant-centric environmental control16144354933
65d3k1jtThermal comfort in naturally-ventilated and air-conditioned classrooms in the tropics.16129343464
4kv4f2mkA review of the corrective power of personal comfort systems in non-neutral ambient environments15931742727
1wc7t219Quantitative relationships between occupant satisfaction and satisfaction aspects of indoor environmental quality and building design15750442736
0q03g71sAir movement and thermal comfort14528374337
4cd386s7Natural Ventilation for Energy Savings in California Commercial Buildings13939413821
2kw2g6rsWhat School Buildings Can Teach Us: Post-Occupancy Evaluation Surveys in K-12 Learning Environments13831312947
3sw061xhThermal sensation and comfort models for non-uniform and transient environments: Part I: local sensation of individual body parts13841362239
28x9d7xjEnergy savings from extended air temperature setpoints and reductions in room air mixing13642372928
2hf4r1pgExperimental evaluation of the effect of body mass on thermal comfort perception13636362935
54n6b7m3Personal comfort models: Predicting individuals' thermal preference using occupant heating and cooling behavior and machine learning13634403428
9s12q89qComfort under personally controlled air movement in warm and humid environments13343383220
47n20647Laboratory studies of the effect of air movement on thermal comfort: a comparison and discussion of methods13033314521
5zt7n382Air movement and thermal comfort: The new ASHRAE Standard 55 provides information on appropriate indoor air velocities for occupant comfort12936422229
84r525hjImpacts of life satisfaction, job satisfaction and the Big Five personality traits on satisfaction with the indoor environment12628323036
18f0r375Typical Clothing Ensemble Insulation Levels for Sixteen Body Parts12540333220
89m0z34xPercentage of commercial buildings showing at least 80% occupant satisfied with their thermal comfort12536382625
75j1m967Artificial Intelligence for Efficient Thermal Comfort Systems: Requirements, Current Applications and Future Directions12018273342
22k424vpEvaluating thermal environments by using a thermal manikin with controlled skin surface temperature11930292931
5w0349xvObservations of upper-extremity skin temperature and corresponding overall-body thermal sensations and comfort11930372725
9hn3s947Convective and radiative heat transfer coefficients for individual human body segments11822294423
1pz9j3j2Thermal sensation and comfort models for non-uniform and transient environments: Part II: local comfort of individual body parts11033301928
615214hjWhy Wet Feels Wet? An Investigation Into the Neurophysiology of Human Skin Wetness Perception10918263233
0zm2z3jgAcoustical quality in office workstations, as assessed by occupant surveys10640163020
5ts7j0f8Indoor environmental quality assessment models: a literature review and a proposed weighting and classification scheme10328282819
6d94f90bMoving air for comfort10246212114
0dh6c67dDevelopment of the ASHRAE Global Thermal Comfort Database II10023331826
6pq3r5prEvaluation of the physiological bases of thermal comfort models10034251724
92z5q2qbProgress in thermal comfort research over the last twenty years10028331920
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