What is he best known for?
The fields of study he is best known for:
- Mechanics
- Thermodynamics
- Mechanical engineering
His primary scientific interests are in Mechanics, Combustion, Premixed flame, Analytical chemistry and Laminar flame speed.
His Mechanics research includes elements of Amplitude, Combustor and Classical mechanics.
In his study, Gas burner is inextricably linked to Flow, which falls within the broad field of Combustor.
His Combustion study combines topics in areas such as Conical surface, Limit cycle, Describing function, Nonlinear system and Vorticity.
In Premixed flame, he works on issues like Flame structure, which are connected to Light emission, Flow velocity, Optics and Acoustic wave.
His research in Laminar flame speed focuses on subjects like Laminar flow, which are connected to Mole fraction, Flame speed, Water vapor, Atmospheric pressure and Diffusion flame.
His most cited work include:
- A unified framework for nonlinear combustion instability analysis based on the flame describing function (345 citations)
- A unified model for the prediction of laminar flame transfer functions: comparisons between conical and V-flame dynamics (337 citations)
- Combustion Dynamics and Instabilities: Elementary Coupling and Driving Mechanisms (326 citations)
What are the main themes of his work throughout his whole career to date?
Thierry Schuller spends much of his time researching Mechanics, Combustion, Combustor, Combustion chamber and Premixed flame.
His study ties his expertise on Analytical chemistry together with the subject of Mechanics.
Thierry Schuller interconnects Acoustics, Injector, Laminar flow, Thermodynamics and Amplitude in the investigation of issues within Combustion.
The Combustor study combines topics in areas such as Mechanical engineering, Sound pressure, Oscillation and Control theory.
His study in Combustion chamber is interdisciplinary in nature, drawing from both Azimuth, Transverse plane, Simulation, Plenum space and Coupling.
His Premixed flame research integrates issues from Reduced frequency, Ignition system, Flame structure and Light emission.
He most often published in these fields:
- Mechanics (107.89%)
- Combustion (65.13%)
- Combustor (62.50%)
What were the highlights of his more recent work (between 2015-2019)?
- Mechanics (107.89%)
- Combustion (65.13%)
- Combustor (62.50%)
In recent papers he was focusing on the following fields of study:
Mechanics, Combustion, Combustor, Combustion chamber and Laminar flow are his primary areas of study.
His Mechanics research is multidisciplinary, relying on both Injector and Transfer function.
His research investigates the connection between Combustion and topics such as Natural gas that intersect with problems in Gas composition, Intensity, Biogas and Process engineering.
His primary area of study in Combustor is in the field of Diffusion flame.
Thierry Schuller has included themes like Acoustics, Sound pressure, Amplitude and Thermodynamics in his Combustion chamber study.
His Laminar flow research incorporates elements of Instability, Adiabatic flame temperature, Premixed flame, Heat transfer and Analytical chemistry.
Between 2015 and 2019, his most popular works were:
- A hysteresis phenomenon leading to spinning or standing azimuthal instabilities in an annular combustor (38 citations)
- Experimental and numerical investigation of the influence of thermal boundary conditions on premixed swirling flame stabilization (26 citations)
- A comparison between the stabilization of premixed swirling CO2-diluted methane oxy-flames and methane/air flames (25 citations)
In his most recent research, the most cited papers focused on:
- Thermodynamics
- Mechanics
- Mechanical engineering
His main research concerns Mechanics, Combustor, Combustion chamber, Turbulence and Diffusion flame.
His Mechanics research includes elements of Combustion and Spinning.
His studies in Spinning integrate themes in fields like Oscillation, Instability and Single-mode optical fiber.
His Combustion chamber study incorporates themes from Acoustics, Sound pressure, Reflection coefficient, Euler equations and Nozzle.
His research investigates the link between Turbulence and topics such as Laminar flow that cross with problems in Operating point, Reynolds number and Adiabatic flame temperature.
His biological study spans a wide range of topics, including Premixed flame, Adiabatic process and Analytical chemistry.
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