T. Roestenberg scite author profile

T. Roestenberg

4Publications

18Citation Statements Received

106Citation Statements Given

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Affiliations

University of Twente, Encontech (Netherlands)

Publications

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Parametrical Study on CO₂ Capture from Ambient Air Using Hydrated K₂CO₃ Supported on an Activated Carbon Honeycomb

Rodríguez-Mosqueda

Bramer

Roestenberg

et al. 2018

Ind. Eng. Chem. Res.

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Potassium carbonate is a highly hygroscopic salt, and this aspect becomes important for CO2 capture from ambient air. Moreover, CO2 capture from ambient air requires adsorbents with a very low pressure drop. In the present work an activated carbon honeycomb monolith was coated with K2CO3, and it was treated with moist N2 to hydrate it. Its CO2 capture capacity was studied as a function of the temperature, the water content of the air, and the air flow rate, following a factorial design of experiments. It was found that the water vapor content in the air had the largest influence on the CO2 adsorption capacity. Moreover, the deliquescent character of K2CO3 led to the formation of an aqueous solution in the pores of the carrier, which regulated the temperature of the CO2 adsorption. The transition between the anhydrous and the hydrated forms of potassium carbonate was studied by means of FT-IR spectroscopy. It can be concluded that hydrated potassium carbonate is a promising and cheap alternative for CO2 capture from ambient air for the production of CO2-enriched air or for the synthesis of solar fuels, such as methanol.

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Heat transfer study of the pulsed compression reactor

Roestenberg

Glushenkov

Kronberg

et al. 2010

Chemical Engineering Science

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Experimental study and simulation of syngas generation from methane in the Pulsed Compression Reactor

Roestenberg

Glushenkov

Kronberg

et al. 2011

Fuel

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On the controllability and run-away possibility of a totally free piston, pulsed compression reactor

Roestenberg

Glushenkov

Kronberg

et al. 2010

Chemical Engineering Science

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T. Roestenberg

Parametrical Study on CO₂ Capture from Ambient Air Using Hydrated K₂CO₃ Supported on an Activated Carbon Honeycomb

Heat transfer study of the pulsed compression reactor

Experimental study and simulation of syngas generation from methane in the Pulsed Compression Reactor

On the controllability and run-away possibility of a totally free piston, pulsed compression reactor

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About

T. Roestenberg

Parametrical Study on CO2 Capture from Ambient Air Using Hydrated K2CO3 Supported on an Activated Carbon Honeycomb

Heat transfer study of the pulsed compression reactor

Experimental study and simulation of syngas generation from methane in the Pulsed Compression Reactor

On the controllability and run-away possibility of a totally free piston, pulsed compression reactor

Contact Info

Product

Resources

About

Parametrical Study on CO₂ Capture from Ambient Air Using Hydrated K₂CO₃ Supported on an Activated Carbon Honeycomb