David Korba at Mississippi State University

University	Mississippi State University
Position	Graduate Student
Citations(all)	86
Citations(since 2020)	86
Cited By	6
hIndex(all)	6
hIndex(since 2020)	6
i10Index(all)	4
i10Index(since 2020)	4
Email	Access Email
University Profile Page	Mississippi State University
Google Scholar	View Google Scholar Profile

Particle-based high-temperature thermochemical energy storage reactors

2024/5/1

Jian Zhao

H-Index: 13

David Korba

H-Index: 1

Ashreet Mishra

H-Index: 1

Kelvin Randhir

H-Index: 6

Nick Auyeung

H-Index: 10

Like Li

H-Index: 10

Continuum modeling of high-temperature (> 1000° C) heat extraction from a moving-bed oxidation reactor for thermochemical energy storage

Journal of Energy Storage

2024/3/30

David Korba

H-Index: 1

Michael Hayes

H-Index: 1

Kelvin Randhir

H-Index: 6

Nick Auyeung

H-Index: 10

Like Li

H-Index: 10

Heat and mass transfer model for a counter-flow moving packed-bed oxidation reactor/heat exchanger

Journal of Solar Energy Engineering

2024/3/11

Ashreet Mishra

H-Index: 1

David Korba

H-Index: 1

Jian Zhao

H-Index: 13

Like Li

H-Index: 10

Experimental demonstration of high-temperature (> 1000° C) heat extraction from a moving-bed oxidation reactor for thermochemical energy storage

Applied Energy

2023/11/1

Michael Hayes

H-Index: 1

David Korba

H-Index: 1

Nick Auyeung

H-Index: 10

Like Li

H-Index: 10

Kelvin Randhir

H-Index: 6

Numerical Investigation of Thermochemical Energy Extraction in a Moving Packed Bed Oxidation Reactor-Heat Exchanger

2023/7/10

Ashreet Mishra

H-Index: 1

David Korba

H-Index: 1

Like Li

H-Index: 10

Thermomechanical Stress and Creep-Fatigue Analysis of a High-Temperature Prototype Receiver for Heating Particles

2023/7/10

Matt Carter

H-Index: 17

David Korba

H-Index: 1

Like Li

H-Index: 10

Prediction and Validation of Flow Properties in Porous Lattice Structures

Journal of Fluids Engineering

2023/4/1

Ashreet Mishra

H-Index: 1

David Korba

H-Index: 1

Prashant Singh

H-Index: 15

Like Li

H-Index: 10

Heat and mass transfer modeling of high-temperature moving-bed thermochemical reactors

2023

David Korba

H-Index: 1

TOMOGRAPHY-BASED PORE-SCALE MODEL AND PREDICTION OF FLOW AND THERMAL TRANSPORT PROPERTIES FOR THERMOCHEMICAL ENERGY STORAGE MATERIALS

2023

David Korba

H-Index: 1

Ashreet Mishra

H-Index: 1

Kelvin Randhir

H-Index: 6

Nima Rahmatian

H-Index: 5

Nick Auyeung

H-Index: 10

Like Li

H-Index: 10

A COUPLED FINITE DIFFERENCE-LATTICE BOLTZMANN-BASED PHASE FIELD MODEL FOR DENDRITIC EVOLUTION DURING METAL ADDITIVE MANUFACTURING

2023

David Korba

H-Index: 1

Like Li

H-Index: 10

Effects of pore scale and conjugate heat transfer on thermal convection in porous media

Journal of Fluid Mechanics

2022/8

David Korba

H-Index: 1

Like Li

H-Index: 10

A continuum model for heat and mass transfer in moving-bed reactors for thermochemical energy storage

Applied Energy

2022/5/1

David Korba

H-Index: 1

Wei Huang

H-Index: 8

Kelvin Randhir

H-Index: 6

Joerg Petrasch

H-Index: 18

Nick Auyeung

H-Index: 10

Like Li

H-Index: 10

Thermochemical reduction modeling in a high-temperature moving-bed reactor for energy storage: 1D model

Applied Energy

2022/1/15

Wei Huang

H-Index: 8

David Korba

H-Index: 1

Kelvin Randhir

H-Index: 6

Joerg Petrasch

H-Index: 18

Nick Auyeung

H-Index: 10

Like Li

H-Index: 10

Thermochemical heat recuperation for compressed air energy storage

Energy Conversion and Management

2021/12/15

David Korba

H-Index: 1

Wei Huang

H-Index: 8

Kelvin Randhir

H-Index: 6

Like Li

H-Index: 10

Nick Auyeung

H-Index: 10

Phase-field-lattice Boltzmann method for dendritic growth with melt flow and thermosolutal convection–diffusion

Computer Methods in Applied Mechanics and Engineering

2021/11/1

David Korba

H-Index: 1

Shengfeng Yang

H-Index: 11

Lei Chen

H-Index: 18

Like Li

H-Index: 10

Lattice Boltzmann model for conjugate heat transfer across thin walls

Physical Review E

2021/4/12

David Korba

H-Index: 1

Like Li

H-Index: 10

Accuracy of interface schemes for conjugate heat and mass transfer in the lattice Boltzmann method

International Journal of Heat and Mass Transfer

2020/8/1

David Korba

H-Index: 1

Like Li

H-Index: 10

David Korba

Mississippi State University

About David Korba

David Korba Information

David Korba Skills & Research Interests

Top articles of David Korba

Particle-based high-temperature thermochemical energy storage reactors

Jian Zhao

David Korba

Ashreet Mishra

Kelvin Randhir

Nick Auyeung

Like Li

Continuum modeling of high-temperature (> 1000° C) heat extraction from a moving-bed oxidation reactor for thermochemical energy storage

David Korba

Michael Hayes

Kelvin Randhir

Nick Auyeung

Like Li

Heat and mass transfer model for a counter-flow moving packed-bed oxidation reactor/heat exchanger

Ashreet Mishra

David Korba

Jian Zhao

Like Li

Experimental demonstration of high-temperature (> 1000° C) heat extraction from a moving-bed oxidation reactor for thermochemical energy storage

Michael Hayes

David Korba

Nick Auyeung

Like Li

Kelvin Randhir

Numerical Investigation of Thermochemical Energy Extraction in a Moving Packed Bed Oxidation Reactor-Heat Exchanger

Ashreet Mishra

David Korba

Like Li

Thermomechanical Stress and Creep-Fatigue Analysis of a High-Temperature Prototype Receiver for Heating Particles

Matt Carter

David Korba

Like Li

Prediction and Validation of Flow Properties in Porous Lattice Structures

Ashreet Mishra

David Korba

Prashant Singh

Like Li

Heat and mass transfer modeling of high-temperature moving-bed thermochemical reactors

David Korba

TOMOGRAPHY-BASED PORE-SCALE MODEL AND PREDICTION OF FLOW AND THERMAL TRANSPORT PROPERTIES FOR THERMOCHEMICAL ENERGY STORAGE MATERIALS

David Korba

Ashreet Mishra

Kelvin Randhir

Nima Rahmatian

Nick Auyeung

Like Li

A COUPLED FINITE DIFFERENCE-LATTICE BOLTZMANN-BASED PHASE FIELD MODEL FOR DENDRITIC EVOLUTION DURING METAL ADDITIVE MANUFACTURING

David Korba

Like Li

Effects of pore scale and conjugate heat transfer on thermal convection in porous media

David Korba

Like Li

A continuum model for heat and mass transfer in moving-bed reactors for thermochemical energy storage

David Korba

Wei Huang

Kelvin Randhir

Joerg Petrasch

Nick Auyeung

Like Li

Thermochemical reduction modeling in a high-temperature moving-bed reactor for energy storage: 1D model

Wei Huang

David Korba

Kelvin Randhir

Joerg Petrasch

Nick Auyeung

Like Li

Thermochemical heat recuperation for compressed air energy storage

David Korba

Wei Huang

Kelvin Randhir

Like Li

Nick Auyeung

Phase-field-lattice Boltzmann method for dendritic growth with melt flow and thermosolutal convection–diffusion

David Korba