Lasse Rosendahl regularly ties together related areas like Thermodynamics in his Thermoelectric effect studies. Many of his studies involve connections with topics such as Thermoelectric generator and Thermodynamics. Lasse Rosendahl performs multidisciplinary study in Thermoelectric generator and Thermoelectric effect in his work. His work often combines Electronic circuit simulation and Electronic circuit studies. Lasse Rosendahl integrates Electronic circuit with Electronic circuit simulation in his research. Lasse Rosendahl undertakes multidisciplinary studies into Electrical engineering and Mechanical engineering in his work. He connects Mechanical engineering with Electrical engineering in his study. Chemical engineering and Hydrothermal circulation are commonly linked in his work. His Hydrothermal circulation study frequently draws parallels with other fields, such as Chemical engineering.
Along with Photovoltaic system, other disciplines of study including Photovoltaics and Solar energy are integrated into his research. Lasse Rosendahl undertakes interdisciplinary study in the fields of Solar energy and Photovoltaic system through his research. Power (physics) is the topic of his studies on Generator (circuit theory) and Electricity generation. His Electricity generation study frequently draws connections between related disciplines such as Power (physics). His work in Operating system is not limited to one particular discipline; it also encompasses Process (computing) and Transient (computer programming). Lasse Rosendahl undertakes interdisciplinary study in the fields of Process (computing) and Operating system through his research. In his works, he conducts interdisciplinary research on Thermoelectric effect and Thermoelectric materials. He merges Thermoelectric materials with Thermoelectric generator in his research. In his works, Lasse Rosendahl undertakes multidisciplinary study on Thermoelectric generator and Thermoelectric effect.
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Hydrothermal liquefaction of biomass: A review of subcritical water technologies
Saqib Sohail Toor;Lasse Rosendahl;Andreas Rudolf.
Grate-firing of biomass for heat and power production
Chungen Yin;Lasse Rosendahl;Søren Knudsen Kær.
Progress in Energy and Combustion Science (2008)
Hydrothermal liquefaction of barley straw to bio-crude oil: Effects of reaction temperature and aqueous phase recirculation
Zhe Zhu;Lasse Rosendahl;Saqib Sohail Toor;Donghong Yu.
Applied Energy (2015)
Hydrothermal liquefaction of Spirulina and Nannochloropsis salina under subcritical and supercritical water conditions.
Saqib S. Toor;Harvind Reddy;Shuguang Deng;Jessica Hoffmann.
Bioresource Technology (2013)
New Weighted Sum of Gray Gases Model Applicable to Computational Fluid Dynamics (CFD) Modeling of Oxy−Fuel Combustion: Derivation, Validation, and Implementation
Chungen Yin;Lars Christian Riis Johansen;Lasse Rosendahl;Søren Knudsen Kær.
Energy & Fuels (2010)
Heat transfer efficiency of Al2O3-MWCNT/thermal oil hybrid nanofluid as a cooling fluid in thermal and energy management applications: An experimental and theoretical investigation
Amin Asadi;Meisam Asadi;Alireza Rezaniakolaei;Lasse Aistrup Rosendahl.
International Journal of Heat and Mass Transfer (2018)
A three-dimensional numerical model of thermoelectric generators in fluid power systems
Min Chen;Lasse A. Rosendahl;Thomas Condra.
International Journal of Heat and Mass Transfer (2011)
Modelling the motion of cylindrical particles in a nonuniform flow
Chungen Yin;Lasse Aistrup Rosendahl;Søren Knudsen Kær;Henrik Sørensen.
Chemical Engineering Science (2003)
Mathematical Modeling and Experimental Study of Biomass Combustion in a Thermal 108 MW Grate-Fired Boiler
Chungen Yin;Lasse Rosendahl;Søren Knudsen Kær;Sønnik Clausen.
Energy & Fuels (2008)
Continuous hydrothermal co-liquefaction of aspen wood and glycerol with water phase recirculation
T.H. Pedersen;I.F. Grigoras;J. Hoffmann;S.S. Toor.
Applied Energy (2016)
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