Laboratories
More publications
- Pilot-scale CO2 capture in a cement plant with CESAR1: Higher stripper pressure reduces energy demand and compression work but increases solvent degradation
- Degradation of 2-Amino-2-methylpropanol and Piperazine at CO2 Capture-Relevant Conditions Read the publication
- Oxidative thermal degradation of Monoethylene Glycol (MEG) in water lean solutions at 110–150 °C Read the publication
- CESAR1 solvent degradation in pilot and laboratory scale
- Thermal Reclamation Chemistry of Common Amine Solvents
- Assessment of the volatility of amine degradation compounds in aqueous MEA and blend of 1-(2HE)PRLD and 3A1P Read the publication
- Analytical tools for monitoring glycol degradation Read the publication
- Recovery of lithium from oxalic acid leachate produced from black mass of spent electric vehicle Li-ion batteries Read the publication
- Oxidative degradation of triethylene glycol Read the publication
- Available data and knowledge gaps of the CESAR1 solvent system Read the publication
Other
- Further evaluation of potassium iodide’s effect on oxidative and thermal degradation of MEA
- Review of degradation and corrosion inhibition for chemical absorption
- CESAR1 solvent degradation in pilot and laboratory scale
- CO2 Abscheidung - Mögliche Technologien und Quellen
- CESAR1 degradation
- Thermal reclamation chemistry of common amine solvents
- Towards understanding CESAR1 degradation
- Oxidative degradation of monoethanolamine (MEA) in the presence of different metal ions
- How does a Sepsis Biosensor work? And what gold nanoparticles do we need for that?
- Assessment of the volatility of degradation products