Vishaldeep Sharma Research and Development Staff Contact SHARMAV@ORNL.GOV All Publications Refrigerants for a Sustainable Future... Residential HVAC Fault Detection: Field Data Analysis and Interviews with Smart Thermostat Manufacturers Mitigation of Safety and Environmental Challenges Posed by Low and Ultra-low GWP Refrigerants Thermal-hydraulic Performance of Emerging Low GWP Refrigerant Mixture under Flow Boiling in Brazed Plate Heat Exchangers Evaluation of Leak Detection Technologies for Low Global Warming Potential (GWP), Flammable Refrigerants A Modeling Study on the R290 Leaking Assessment of Commercial Refrigeration Equipment Mitigation of safety and environmental challenges posed by refrigerants A Modeling-Based Flammable Risk Treatment of Refrigerant Leakage from a Commercial R-290 Refrigeration Machine Evaluation of Low Environmental Impact “Distributed Scroll Booster” Technology for Supermarket Refrigeration... Residential HVAC Fault Data Collection Plan: Refrigerant Undercharge and Overcharge Faults... A Review of Sensing Technologies for New, Low Global Warming Potential (GWP), Flammable Refrigerants A NUMERICAL STUDY OF REFRIGERANT LEAKAGE FROM A PROPANE-BASED REFRIGERATION SYSTEM Energy-efficient building technologies Energy demand reduction in the built environment using shallow geothermal integrated energy systems: Part II – Hybrid ground source heat pump for building heating Sustainable Energy Solutions for Thermal Load in Buildings—Role of Heat Pumps, Solar Thermal, and Hydrogen-Based Cogeneration Systems Suitable low Global Warming Potential (GWP) refrigerants for two-speed Heat Pumps for residential applications based on speed... Pressure Exchanger for Energy Recovery in a Trans-Critical CO2 Refrigeration System Modeling of Pressure Exchanger for Energy Recovery on Trans Critical CO2 Refrigeration Cycle... Performance Evaluation of the ThermoLift Natural Gas Fired Air Conditioner and Cold-Climate Heat Pump Analysis of the P-T and T-S phase boundary in discriminating suitable low global warming potential and low flammability refrigerants Increasing the efficiency of a carbon dioxide refrigeration system using a pressure exchanger Analysis of the P-T and T-S phase boundary in discriminating suitable low global warming potential and low flammability refrigerants Options for low–global-warming-potential and natural refrigerants- Performance for heat pump application and analysis of systemic irreversibilities Options for low-global-warming-potential and natural refrigerants part I: Constrains of the shape of the P–T and T–S saturation phase boundaries Options for low-global-warming-potential and natural refrigerants part I: Constrains of the shape of the P–T and T–S saturation phase boundaries Pagination Current page 1 Page 2 Page 3 Next page ›› Last page Last » Key Links Google Scholar ORCID Organizations Energy Science and Technology Directorate Buildings and Transportation Science Division Building Technologies Research Section Building Equipment Research Group User Facilities Building Technologies Research and Integration Center
