Pengtao Wang R&D Associate Staff Member Contact 865.341.2423 | WANGP@ORNL.GOV All Publications Dynamic condensation model of rolling droplets for high-performance heat transfer... Energy dataset of Frontier supercomputer for waste heat recovery Technology Feasibility of High-Temperature Heat Pumps for Industrial Drying Process in the US An Experimental Investigation of Sintered Particle Effect on Heat Transfer Performance in an “Annular Flow” Evaporation Tube Modeling and Analysis of a Heat Pump Clothes Dryer with Thermal Energy Storage... District heating utilizing waste heat of a data center: High-temperature heat pumps Benchmark Testing of Two Residential Refrigerators Using R-600a High Temperature Heat Pumps and Their Roles in the Decarbonization of Building and Industry PINCH POINT ANALYSIS OF GAS COOLERS IN TRANSCRITICAL R1336mzz(Z) HIGH-TEMPERATURE HEAT PUMPS... Searching for Suitable Binary Fluid for an Ejector Heat Pump for Domestic Water Heating Patterned Quasi-Liquid Surfaces for Condensation of Low Surface Tension Fluids ORNL Campus Sustainability and Decarbonization using Waste Heat Recovery from the Oak Ridge Leadership Computing Facility’s High-Performance Computing Data Center Thermodynamic analysis of a two-stage binary-fluid ejector heat pump water heater EXPERIMENTAL ANALYSIS OF SINGLE EVAPORATION TUBE UTILIZING SINTERED COPPER PARTICLE WICKING STRUCTURES Pool boiling on metal-foam enhanced tube bundle: heat transfer characteristics and flow visualization Searching for eco-friendly working fluids for an ejector-driven heat pump for domestic water heating Exploration of Heat-Driven Ejector High-Temperature Heat Pumps Experimental study of steam-driven ejector heat pump Performance Analysis of High-Temperature Heat Pumps with Two-Phase Ejectors Sustainable dropwise condensation enabled ultraefficient heat pipes... Experimental performance of ejector heat pump operating in the sub-critical mode Ejector Heat Pump for Water Heating Key Links
