基本信息
浏览量:83
职业迁徙
个人简介
Research Interests
Theoretical and applied non-equilibrium and equilibrium thermodynamics with two principal focuses: i) intrinsic quantum thermodynamics (IQT) and its mathematical framework steepest-entropy-ascent quantum thermodynamics (SEA-QT) and ii) SEA non-equilibrium thermodynamics (SEA-NT)
Thermoeconomics / exergo-environomics / exergy analysis: computational methods for modeling and optimizing complex energy systems; methodological approaches (with and without sustainability and uncertainty considerations) for the integrated synthesis, design, operation, control, reliability, and resiliency of energy systems; decomposition approaches for large-scale optimization
Heat, mass, and charge transport
Kinetic theory, the Boltzmann equation, and its master equations (e.g., the BGK equation)
Numerical Modeling: macroscopic (i.e., finite element and finite difference approaches applied to the continuum conservation equations), mesoscopic (i.e., Lattice Boltzmann Method applied to the BGK equation and the SEA-NT equation of motion), atomistic (i.e., closed form and discretized solutions of the energy eigenvalue problem and discretized solutions of the IQT/SEA-QT equations of motion)
Renewable and non-renewable stationary power/cogeneration/district heating-cooling systems; infrastructure systems (e.g., grid/microgrid/producer/storage networks)
Fuel cell applications for both transportation and centralized, distributed, and portable power generation and cogeneration.
High performance (supersonic and hypersonic) and uninhabited air vehicles
Nanoscale and microscale reactive and non-reactive systems
Theoretical and applied non-equilibrium and equilibrium thermodynamics with two principal focuses: i) intrinsic quantum thermodynamics (IQT) and its mathematical framework steepest-entropy-ascent quantum thermodynamics (SEA-QT) and ii) SEA non-equilibrium thermodynamics (SEA-NT)
Thermoeconomics / exergo-environomics / exergy analysis: computational methods for modeling and optimizing complex energy systems; methodological approaches (with and without sustainability and uncertainty considerations) for the integrated synthesis, design, operation, control, reliability, and resiliency of energy systems; decomposition approaches for large-scale optimization
Heat, mass, and charge transport
Kinetic theory, the Boltzmann equation, and its master equations (e.g., the BGK equation)
Numerical Modeling: macroscopic (i.e., finite element and finite difference approaches applied to the continuum conservation equations), mesoscopic (i.e., Lattice Boltzmann Method applied to the BGK equation and the SEA-NT equation of motion), atomistic (i.e., closed form and discretized solutions of the energy eigenvalue problem and discretized solutions of the IQT/SEA-QT equations of motion)
Renewable and non-renewable stationary power/cogeneration/district heating-cooling systems; infrastructure systems (e.g., grid/microgrid/producer/storage networks)
Fuel cell applications for both transportation and centralized, distributed, and portable power generation and cogeneration.
High performance (supersonic and hypersonic) and uninhabited air vehicles
Nanoscale and microscale reactive and non-reactive systems
研究兴趣
论文共 206 篇作者统计合作学者相似作者
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引用量
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期刊级别
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openalex(2024)
Nanomaterialsno. 5 (2024): 458-458
arxiv(2024)
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The Journal of chemical physicsno. 10 (2023): 104904
Quantum information processingno. 9 (2022)
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作者统计
#Papers: 208
#Citation: 4472
H-Index: 28
G-Index: 56
Sociability: 5
Diversity: 2
Activity: 22
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