Abstract
A unique in-house designed experimental apparatus for investigation of nucleation of droplets in CCS relevant systems is being developed by our team. The nucleation is measured with the help of a rapid pressure drop within an expansion chamber. In this study, a CO2 branch representing an important part of the mixture preparation device (MPD) was designed, assembled and tested. MPD is intended for preparation of CO2 -rich mixtures in a sense of accurate setting of flow rates of individual gaseous components through the experimental section with the expansion chamber. In the CO2 branch, the saturated liquid CO2 coming from a cylinder with a dip tube is pressurized by a supercritical pump with a constant flow rate to the pressures of up to 340 bar. The required mass flow of the supercritical CO2 of up to 180 g/h at pressures between 74 bar and 150 bar is accurately tuned with a help of a set of stainless steel capillary tubes with inner diameter of 0.1 mm. Some of the tubes are submerged in a thermostatic bath set to a constant temperature of 70 °C in order to assure the supercritical flow conditions of CO2 . Needed lengths of the capillary tubes were determined with a help of a one-dimensional numerical model allowing prediction of both isothermal and adiabatic flow conditions.
Highlights
The team of the Laboratory of Phase Transition Kinetics at the Institute of Thermomechanics of the CAS is developing a unique experimental apparatus for investing the formation of droplets in CO2-rich systems
The flow rates are tuned with a supercritical fluid pump (SCP) for CO2, a set of flow controllers and stainless steel capillary tubes used as elements with defined pressure drop at a given flow rate
The carrier gas is mixed with carbon dioxide coming from the CO2 branch in 1⁄4 inch tubes placed inside a thermostatic bath set to temperatures between 5 and 150 °C depending on the conditions for nucleation of droplets investigated within the expansion chamber
Summary
The team of the Laboratory of Phase Transition Kinetics at the Institute of Thermomechanics of the CAS is developing a unique experimental apparatus for investing the formation of droplets in CO2-rich systems. Motivation for this research is to obtain new valuable data for nucleation of droplets (the initial stage of droplet formation) in binary and multicomponent mixtures important in the design of new carbon capture and storage (CCS) technologies [1]. The research of our team is focused mainly on binary systems of carbon dioxide with nitrogen and argon. A unique mixture preparation device (MPD) for preparation of CO2-rich mixtures with up to three components was designed by our team. The CO2-branch representing the most important part of MPD was designed, assembled and successfully tested
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