A. Kalantzopoulos scite author profile

A new inverse gas chromatographic methodology is introduced to measure local (homogeneous) adsorption energies, , local monolayer capacities, c max / , and adsorption isotherms, θ i (p,T, ) for probe gases on heterogeneous solid surfaces in the presence of nitrogen as carrier gas. The method does not depend on analytical solutions of the classical integral equation comprising the adsorption energy distribution function f( ) as unknown, nor on numerical solutions and estimations from this equation, using powerful computers.It simply uses a time function of the chromatographic peaks obtained by short flow-reversals of the carrier gas, combined with the local isotherm model of Jovanovic. All three adsorption parameters , c max / , and θ i (p,T, ) mentioned above can be calculated as a function of the experimental time and refer to instantaneous equilibration of the probe gases with the heterogeneous surface, with different kinds of active sites i being involved at different times. The kinetic physicochemical parameters for the adsorption phenomenon are also included for the gas/solid systems studied, being C

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Measurement of adsorption energies on heterogeneous surfaces by inverse gas chromatography

Katsanos

Rakintzis

Roubani‐Kalantzopoulou

et al. 1999

Journal of Chromatography A

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Deposition parameters of air pollutants on solid surfaces, measured in the presence of surface and gaseous reactions, with a simultaneous determination of the experimental isotherms

Abatzoglou¹,

Iliopoulou²,

Katsanos³

et al. 1997

Journal of Chromatography A

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Online Laboratory Sessions in System Design with DSPs using the R-DSP Lab

Kalantzopoulos

Zigouris

2014

Int. J. Onl. Eng.

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Abstract-This paper presents the online conduction of the System Design with DSPs laboratory sessions through the R-DSP Lab (Remote Digital Signal Processor Laboratory). This interactive RL (Remote Laboratory) supports the verification of DSP applications which are written offline by the students in C and/or assembly programming language, through an internet accessible and user friendly control environment. The latest and most important feature of the R-DSP Lab which is also proposed in this paper, is the remote control of student's DSP applications through GUIs (Graphical User Interfaces) developed by them. In order to demonstrate the above feature, the implementation and verification processes of one laboratory session are presented. The assessment and evaluation results of both the System Design with DSPs laboratory sessions and the R-DSP Lab, are also discussed.

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Benzene and toluene influence with or without nitrogen dioxide on inorganic pigments of works of art

Kalantzopoulos

Birbatakoy

Roubani‐Kalantzopoulou

1998

Atmospheric Environment

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