Center for Environmental Design Research
Parent: UC Berkeley
eScholarship stats: Breakdown by Item for April through July, 2024
| Item | Title | Total requests | Download | View-only | %Dnld |
|---|---|---|---|---|---|
| 3f4599hx | The skin's role in human thermoregulation and comfort | 1,689 | 1,398 | 291 | 82.8% |
| 4qq2p9c6 | Developing an adaptive model of thermal comfort and preference | 1,216 | 557 | 659 | 45.8% |
| 935461rm | Quantifying the Comprehensive Greenhouse Gas Co-Benefits of Green Buildings | 555 | 43 | 512 | 7.7% |
| 2m34683k | A better way to predict comfort: the new ASHRAE standard 55-2004 | 432 | 159 | 273 | 36.8% |
| 11m0n1wt | Human thermal sensation and comfort in transient and non-uniform thermal environments | 407 | 248 | 159 | 60.9% |
| 2kd0135t | Analysis of the accuracy on PMV – PPD model using the ASHRAE Global Thermal Comfort Database II | 390 | 118 | 272 | 30.3% |
| 5zt7n382 | Air movement and thermal comfort: The new ASHRAE Standard 55 provides information on appropriate indoor air velocities for occupant comfort | 373 | 23 | 350 | 6.2% |
| 2048t8nn | Climate, comfort, & natural ventilation: a new adaptive comfort standard for ASHRAE standard 55 | 344 | 52 | 292 | 15.1% |
| 3f73w323 | A Standard for Natural Ventilation | 343 | 53 | 290 | 15.5% |
| 6s44510d | Ceiling Fan Design Guide | 334 | 76 | 258 | 22.8% |
| 2gq017pb | Workspace satisfaction: The privacy-communication trade-off in open-plan offices | 332 | 187 | 145 | 56.3% |
| 78v8055h | Indoor air movement acceptability and thermal comfort in hot-humid climates | 294 | 50 | 244 | 17.0% |
| 4db4q37h | Web application for thermal comfort visualization and calculation according to ASHRAE Standard 55 | 293 | 41 | 252 | 14.0% |
| 98n759dr | Evaluation of the cooling fan efficiency index. | 293 | 202 | 91 | 68.9% |
| 7897g2f8 | Air quality and thermal comfort in office buildings: Results of a large indoor environmental quality survey | 274 | 161 | 113 | 58.8% |
| 5kz1z9cg | Indoor Humidity and Human Health--Part I: Literature Review of Health Effects of Humidity-Influenced Indoor Pollutants | 268 | 85 | 183 | 31.7% |
| 89m1h2dg | Modeling the comfort effects of short-wave solar radiation indoors | 252 | 39 | 213 | 15.5% |
| 7hx9338z | Review of fan-use rates in field studies and their effects on thermal comfort, energy conservation, and human productivity | 242 | 43 | 199 | 17.8% |
| 13s1q2xc | Extending air temperature setpoints: Simulated energy savings and design considerations for new and retrofit buildings | 241 | 63 | 178 | 26.1% |
| 4p479663 | Ceiling fans: Predicting indoor air speeds based on full scale laboratory measurements | 240 | 154 | 86 | 64.2% |
| 9rf7p4bs | Occupant satisfaction with indoor environmental quality in green buildings | 229 | 53 | 176 | 23.1% |
| 65d3k1jt | Thermal comfort in naturally-ventilated and air-conditioned classrooms in the tropics. | 225 | 32 | 193 | 14.2% |
| 2pn696vv | Thermal comfort in naturally ventilated buildings: revisions to ASHRAE Standard 55 | 221 | 112 | 109 | 50.7% |
| 5ts1r442 | Thermal Adaptation in the Built Environment: a Literature Review | 211 | 58 | 153 | 27.5% |
| 6fp048t4 | The Effects of Ventilation, Humidity, and Temperature on Bacterial Growth and Bacterial Genera Distribution | 210 | 32 | 178 | 15.2% |
| 3sq8z441 | A model of human physiology and comfort for assessing complex thermal environments | 206 | 87 | 119 | 42.2% |
| 4vq936rc | High-performance facades design strategies and applications in North America and Northern Europe | 202 | 109 | 93 | 54.0% |
| 18d174zs | Personal comfort models—A new paradigm in thermal comfort for occupant-centric environmental control | 199 | 68 | 131 | 34.2% |
| 9hn3s947 | Convective and radiative heat transfer coefficients for individual human body segments | 194 | 181 | 13 | 93.3% |
| 5w53c7kr | Simplified calculation method for design cooling loads in underfloor air distribution (UFAD) systems | 192 | 65 | 127 | 33.9% |
| 09b861jb | The impact of a view from a window on thermal comfort, emotion, and cognitive performance | 189 | 144 | 45 | 76.2% |
| 99q2f4cf | Draft or breeze? preferences for air movement in office buildings and schools from the ASHRAE database | 181 | 7 | 174 | 3.9% |
| 2c58r8qm | Energy savings from temperature setpoints and deadband: Quantifying the influence of building and system properties on savings | 172 | 10 | 162 | 5.8% |
| 2tm289vb | Thermal sensation and comfort models for non-uniform and transient environments: Part III: whole-body sensation and comfort | 169 | 80 | 89 | 47.3% |
| 5w0349xv | Observations of upper-extremity skin temperature and corresponding overall-body thermal sensations and comfort | 150 | 24 | 126 | 16.0% |
| 28x9d7xj | Energy savings from extended air temperature setpoints and reductions in room air mixing | 148 | 58 | 90 | 39.2% |
| 0wb1v0ss | Indoor environmental quality surveys. A brief literature review. | 146 | 83 | 63 | 56.8% |
| 9kt889fn | The effect of thermochromic windows on visual performance and sustained attention | 146 | 92 | 54 | 63.0% |
| 4kv4f2mk | A review of the corrective power of personal comfort systems in non-neutral ambient environments | 145 | 68 | 77 | 46.9% |
| 6pq3r5pr | Evaluation of the physiological bases of thermal comfort models | 142 | 50 | 92 | 35.2% |
| 4ph1m7t5 | Introduction of a Cooling Fan Efficiency Index | 140 | 40 | 100 | 28.6% |
| 6k4369zv | Boiler Retrofits and Decarbonization in Existing Buildings: HVAC Designer Interviews | 140 | 21 | 119 | 15.0% |
| 1wc7t219 | Quantitative relationships between occupant satisfaction and satisfaction aspects of indoor environmental quality and building design | 135 | 77 | 58 | 57.0% |
| 5f2876gr | The Effect of a Low-Energy Wearable Thermal Device on Human Comfort | 135 | 18 | 117 | 13.3% |
| 4cd386s7 | Natural Ventilation for Energy Savings in California Commercial Buildings | 133 | 48 | 85 | 36.1% |
| 4x57v1pf | Operable windows, personal control and occupant comfort. | 133 | 47 | 86 | 35.3% |
| 9s12q89q | Comfort under personally controlled air movement in warm and humid environments | 132 | 28 | 104 | 21.2% |
| 2v88v264 | Measurement of airflow pattern induced by ceiling fan with quad-view colour sequence particle streak velocimetry | 131 | 20 | 111 | 15.3% |
| 43c525tg | Measuring 3D indoor air velocity via an inexpensive low-power ultrasonic anemometer | 131 | 34 | 97 | 26.0% |
| 84r525hj | Impacts of life satisfaction, job satisfaction and the Big Five personality traits on satisfaction with the indoor environment | 131 | 69 | 62 | 52.7% |
Disclaimer: due to the evolving nature of the web traffic we receive and the methods we use to collate it, the data presented here should be considered approximate and subject to revision.