HVAC Systems

Parent: Center for the Built Environment

eScholarship stats: Breakdown by Item for October, 2024 through January, 2025

ItemTitleTotal requestsDownloadView-only%Dnld
4db4q37hWeb application for thermal comfort visualization and calculation according to ASHRAE Standard 552317515632.5%
9cd4c4ztAre we prioritizing the right thing? Cutting carbon emissions in California's large office buildings before installing a heat pump2054516022.0%
3qs8f8qxQuantifying energy losses in hot water reheat systems1692314613.6%
2c58r8qmEnergy savings from temperature setpoints and deadband: Quantifying the influence of building and system properties on savings14281345.6%
6k4369zvBoiler Retrofits and Decarbonization in Existing Buildings: HVAC Designer Interviews1402411617.1%
6b9590qrVariable Air Volume Hot Water Reheat Terminal Units: Temperature Stratification, Performance at Low Hot Water Supply Temperature, and Myths from the Field138885063.8%
4p479663Ceiling fans: Predicting indoor air speeds based on full scale laboratory measurements131448733.6%
75j1m967Artificial Intelligence for Efficient Thermal Comfort Systems: Requirements, Current Applications and Future Directions127586945.7%
13h9z4ggComparison of construction and energy costs for radiant vs. VAV systems in the California Bay Area12591167.2%
8m88d92jHot Water Heating: Design and Retrofit Guide121279422.3%
3fh0x2vmReducing Gas Consumption in Existing Large Commercial Buildings119269321.8%
5w53c7krSimplified calculation method for design cooling loads in underfloor air distribution (UFAD) systems116259121.6%
2924w2j7Variable Air Volume Hot Water Reheat Terminal Units: Temperature Stratification, Performance at Low Hot Water Supply Temperature, and Myths from the Field11401140.0%
46h4h28qMeasured Space Heating Hot Water Distribution Losses in Large Commercial Buildings107208718.7%
6zw3x4rtRe-optimizing Optimal Start and Morning Warmup107169115.0%
0tp7v717Natural vs. mechanical ventilation and cooling.106792774.5%
4ph1m7t5Introduction of a Cooling Fan Efficiency Index106376934.9%
6px642bjCooling load calculations for radiant systems: are they the same traditional methods?1024983.9%
5tz4n92bA new control strategy for high thermal mass radiant systems96128412.5%
3sx6n876Influence Of Three Dynamic Predictive Clothing Insulation Models On Building Energy Use, HVAC Sizing And Thermal Comfort939849.7%
2qd7r5mpFans for cooling people guidebook91137814.3%
7bf4g0k1Influence of raised floor on zone design cooling load in commercial buildings.90375341.1%
1vb3d1j8Thermal comfort in buildings using radiant vs. all-air systems: A critical literature review87276031.0%
2cx301jqLoad Shifting and Enhancing Energy Savings with Dynamic Ventilation Strategies in Multi-Family Residential Buildings82146817.1%
3jn5m7kgThermal and air quality acceptability in buildings that reduce energy by reducing minimun airflow from overhead diffusers8097111.3%
1fk2m3v6Evaluation of a cost-responsive supply air temperature reset strategy in an office building79394049.4%
5t665086Eliminating Overcooling Discomfort While Saving Energy76106613.2%
8cj7n6psCeiling-fan-integrated air conditioning: Airflow and temperature characteristics of a sidewall-supply jet interacting with a ceiling fan76265034.2%
980931rfRoom air stratification in combined chilled ceiling and displacement ventilation systems.76284836.8%
1jh193x3VAV Reheat Versus Active Chilled Beams and DOAS74136117.6%
3c2958x1Energy Flexibility and Sensitivity Analysis of High Thermal Mass Radiant Terminals74235131.1%
85j5v7kzMaterial Selection and System Layout to Lower Embodied Carbon of Pipe in an Office Building73175623.3%
6kj9t7cjEffects of Diffuser Airflow Minima on Occupant Comfort, Air Mixing, and Building Energy Use (RP-1515)69442563.8%
2j75g92wA novel classification scheme for design and control of radiant system based on thermal response time63174627.0%
5p3008p9Design methods for displacement ventilation: Critical review.60233738.3%
5sj3h2s5New method for the design of radiant floor cooling systems with solar radiation60223836.7%
82t6n3xrDesign and control of high thermal mass radiant systems59134622.0%
34f0h35qEnergy Performance of Commercial Buildings with Radiant Heating and Cooling5875112.1%
7jh6m9sxCooling load differences between radiant and air systems57174029.8%
8r07k5g3Cooling capacity and acoustic performance of radiant slab systems with free-hanging acoustical clouds57124521.1%
23t9k6rmChanging the Rules: Innovative Low-Energy Occupant-Responsive HVAC Controls and Systems53134024.5%
85x6r3wvA review of advanced air distribution methods - theory, practice, limitations and solutions522503.8%
9g24f38jComparison of Zone Cooling Load for Radiant and All-Air Conditioning Systems5264611.5%
3cj9n3n4Energy Use, Occupant Surveys and Case Study Summary: Radiant Cooling and Heating in Commercial Buildings514477.8%
88p8v7zbAdvanced Integrated Systems Technology Development: Personal Comfort Systems and Radiant Slab Systems51173433.3%
8x98n5hjField study of the impact of a desktop task/ambient conditioning system in office buildings51153629.4%
6qc4p0frDesign and Control of Hydronic Radiant Cooling Systems50123824.0%
7n6893n6Heating Hot Water Distribution Heat Losses: Detailed Measurement50153530.0%
1sx88662A Classification Scheme for Radiant Systems based on Thermal TimeConstant4984116.3%
7752j100Cooling Energy Savings and Occupant Feedback in a Two Year Retrofit Evaluation of 99 Automated Ceiling Fans Staged With Air Conditioning4884016.7%
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Note: Due to the evolving nature of web traffic, the data presented here should be considered approximate and subject to revision. Learn more.