Junjie Yan

What is he best known for?

The fields of study he is best known for:

• Thermodynamics
• Mechanics
• Mechanical engineering

Junjie Yan mostly deals with Thermodynamics, Waste management, Power station, Jet and Coal. His research in the fields of Supersonic speed, Flash evaporation and Drop overlaps with other disciplines such as Mass ratio and Peak value. Junjie Yan interconnects Electricity generation, Zero liquid discharge, Waste heat and Thermal efficiency in the investigation of issues within Waste management.

The Power station study combines topics in areas such as Boiler feedwater, Thermal energy storage and Thermal power station. His Jet research integrates issues from Condensation, Heat transfer coefficient, Plume and Mass flux. Junjie Yan has included themes like Mechanical engineering and Refrigeration in his Mechanics study.

His most cited work include:

• Experimental study on the condensation of supersonic steam jet submerged in quiescent subcooled water: Steam plume shape and heat transfer (103 citations)
• Theoretical analysis of ejector refrigeration system performance under overall modes (77 citations)
• A 1D model to predict ejector performance at critical and sub-critical operational regimes. (72 citations)

What are the main themes of his work throughout his whole career to date?

His main research concerns Mechanics, Thermodynamics, Condensation, Jet and Heat transfer. Junjie Yan has researched Mechanics in several fields, including Injector, Inlet and Nozzle. His work investigates the relationship between Injector and topics such as Supersonic speed that intersect with problems in Overall pressure ratio.

His study in Condensation is interdisciplinary in nature, drawing from both Range, Oscillation and Mass flux. Junjie Yan combines subjects such as Turbulence, Subcooling and Plume with his study of Jet. His biological study spans a wide range of topics, including Tube, Composite material, Heat exchanger and Water vapor.

He most often published in these fields:

• Mechanics (32.42%)
• Thermodynamics (22.53%)
• Condensation (20.14%)

What were the highlights of his more recent work (between 2019-2021)?

• Mechanics (32.42%)
• Process engineering (10.92%)
• Power station (14.33%)

In recent papers he was focusing on the following fields of study:

His primary areas of study are Mechanics, Process engineering, Power station, Heat transfer and Coal. His research integrates issues of Condensation and Oscillation in his study of Mechanics. His research in Process engineering intersects with topics in Electricity generation, Energy consumption, Boiler and Renewable energy.

His research investigates the connection between Power station and topics such as Power that intersect with issues in Supercritical fluid. His Heat transfer research entails a greater understanding of Thermodynamics. His Coal study incorporates themes from Thermoeconomics and Stress.

Between 2019 and 2021, his most popular works were:

• Process development of flue gas desulphurization wastewater treatment in coal-fired power plants towards zero liquid discharge: Energetic, economic and environmental analyses (65 citations)
• Experimental study on transient heat/mass transfer characteristics during static flash of aqueous NaCl solution (16 citations)
• A review on MPS method developments and applications in nuclear engineering (9 citations)

In his most recent research, the most cited papers focused on:

• Thermodynamics
• Electrical engineering
• Mechanics

Junjie Yan focuses on Process engineering, Electricity generation, Mechanics, Power station and Boiler. His study looks at the intersection of Process engineering and topics like Thermal energy storage with Thermal. As part of his studies on Mechanics, he often connects relevant subjects like Injector.

In his work, Fossil fuel, Concentrated solar power and Boiler feedwater is strongly intertwined with Power, which is a subfield of Power station. His Bubble study integrates concerns from other disciplines, such as Condensation, Intensity, Oscillation and Mass flux. The study incorporates disciplines such as Jet and Volume in addition to Mass flux.

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