2026 Kaj Thomsen: Engineering and Technology Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Engineering and Technology	46	5279	5088	63	62	196	6484

Overview

Kaj Thomsen is affiliated with the Technical University of Denmark in Denmark. Their research focuses primarily on chemical engineering and engineering disciplines, with notable specialization in filtration and separation, biomedical engineering, mechanical engineering, fluid flow and transfer processes, and electrical and electronic engineering.

The main topics of Kaj Thomsen's research cover various aspects of chemical processes and materials. These include:

Chemical and Physical Properties in Aqueous Solutions
Thermodynamic properties of mixtures
Phase Equilibria and Thermodynamics
Carbon Dioxide Capture Technologies
Ionic liquids properties and applications
Crystallization and Solubility Studies
Advancements in Battery Materials

The scientist has contributed several research papers, including these recent publications:

Aqueous Electrolytes Model Parameters and Process Simulation, 2020, DTU Data
A Review of Electrolyte Equations of State with Emphasis on Those Based on Cubic and Cubic-Plus-Association (CPA) Models, 2022, International Journal of Thermophysics
Electrolyte Solutions: Thermodynamics, Crystallization, Separation methods, 2020, DTU Data
A group contribution-based prediction method for the electrical conductivity of ionic liquids, 2020, Fluid Phase Equilibria
Multifunctional imidazolium-based ionic liquid as additive for silicon/carbon lithium ion batteries, 2020, Electrochimica Acta

Kaj Thomsen frequently publishes in these venues:

Journal of Chemical & Engineering Data
Fluid Phase Equilibria
SSRN Electronic Journal
DTU Data
Electrochimica Acta

The scientist collaborates regularly with several co-authors, including:

Philip Loldrup Fosbøl
Lucas Corrêa
Nicolas von Solms
Randi Neerup
Yingjun Cai

Best Publications

Chilled ammonia process for CO2 capture

Victor Camille Alfred Darde;Kaj Thomsen;Willy J.M. van Well;Erling Halfdan Stenby

366
Citations
Modeling of vapor-liquid-solid equilibrium in gas - aqueous electrolyte systems

Kaj Thomsen;Peter Rasmussen

364
Citations
Correlation and prediction of thermal properties and phase behaviour for a class of aqueous electrolyte systems

Kaj Thomsen;Peter Rasmussen;Rafiqul Gani

221
Citations
The Debye-Hückel theory and its importance in modeling electrolyte solutions

Georgios M. Kontogeorgis;Bjørn Maribo-Mogensen;Kaj Thomsen

218
Citations
Calculation of liquid water-hydrate-methane vapor phase equilibria from molecular simulations.

Lars Jensen;Kaj Thomsen;Nicolas von Solms;Scott Wierzchowski

159
Citations
Predictive screening of ionic liquids for dissolving cellulose and experimental verification

Yan-Rong Liu;Yan-Rong Liu;Kaj Thomsen;Yi Nie;Suo-Jiang Zhang

155
Citations
Extended UNIQUAC model for correlation and prediction of vapour–liquid–solid equilibria in aqueous salt systems containing non-electrolytes. Part A. Methanol–water–salt systems

Maria C. Iliuta;Kaj Thomsen;Peter Rasmussen

141
Citations
Aqueous Electrolytes Model Parameters and Process Simulation

Kaj Thomsen

137
Citations
Properties of cryobrines on Mars

D. Möhlmann;Kaj Thomsen

130
Citations
An electrolyte CPA equation of state for mixed solvent electrolytes

Bjørn Maribo-Mogensen;Kaj Thomsen;Georgios M. Kontogeorgis

126
Citations
Extended UNIQUAC model for thermodynamic modeling of CO2 absorption in aqueous alkanolamine solutions

Leila Faramarzi;Georgios Kontogeorgis;Kaj Thomsen;Erling Halfdan Stenby

124
Citations
Prediction of mineral scale formation in geothermal and oilfield operations using the Extended UNIQUAC model: Part II. Carbonate-scaling minerals

Ada Villafáfila García;Kaj Thomsen;Erling H. Stenby

120
Citations
Experimental measurement and modeling of the rate of absorption of carbon dioxide by aqueous ammonia

Victor Darde;Victor Darde;Willy J.M. van Well;Philip L. Fosboel;Erling H. Stenby

115
Citations
Modeling of Dielectric Properties of Aqueous Salt Solutions with an Equation of State

Bjørn Maribo-Mogensen;Georgios M. Kontogeorgis;Kaj Thomsen

114
Citations
Extended UNIQUAC model for correlation and prediction of vapor¿liquid¿liquid¿solid equilibria in aqueous salt systems containing non-electrolytes. Part B. Alcohol (ethanol, propanols, butanols)¿water¿salt systems

Kaj Thomsen;Maria Cornelia Iliuta;Peter Rasmussen

113
Citations
Equilibrium Total Pressure and CO2 Solubility in Binary and Ternary Aqueous Solutions of 2-(Diethylamino)ethanol (DEEA) and 3-(Methylamino)propylamine (MAPA)

Muhammad Waseem Arshad;Hallvard Fjøsne Svendsen;Philip Loldrup Fosbøl;Nicolas von Solms

112
Citations
Process simulation of CO2 capture with aqueous ammonia using the Extended UNIQUAC model

Victor Camille Alfred Darde;Victor Camille Alfred Darde;Bjørn Maribo-Mogensen;Willy J.M. van Well;Erling Halfdan Stenby

110
Citations
Design of a Eutectic Freeze Crystallization process for multicomponent waste water stream

Alison E. Lewis;J. Nathoo;Kaj Thomsen;H.J. Kramer

109
Citations
Comparison of the Debye−Hückel and the Mean Spherical Approximation Theories for Electrolyte Solutions

Bjørn Maribo-Mogensen;Georgios M. Kontogeorgis;Kaj Thomsen

108
Citations
Modeling of Carbon Dioxide Absorption by Aqueous Ammonia Solutions Using the Extended UNIQUAC Model

Victor Camille Alfred Darde;Willy J. M. van Well;Erling Halfdan Stenby;Kaj Thomsen

107
Citations
Prediction of mineral scale formation in geothermal and oilfield operations using the extended UNIQUAC model

Ada Villafáfila García;Kaj Thomsen;Erling H. Stenby

101
Citations