In this work, a litre-scale sorption reactor setup has been built and tested. The components and sensors of the setup have been specified to allow the reproducibility of the setup and the tests information (such as initial and inlet values) have been reported to allow the repeatability of the tests. During this project, it has been tested the setup performance with Zeolite 13X (adsorbent) reacting with water vapor (adsorbate). However, it is possible to perform similar experiments changing materials. Furthermore, a quasi-1D model has been studied to describe the adsorption process. Mass and heat transport phenomena in the reactor have been described by PDEs characterizing the reactor bed and wall temperature and the vapor concentration. Moreover, the reaction kinetics of Zeolite 13X have been described by a linear driving force model that uses the Langmuir- Freundlich isotherm model to determine the equilibrium condition of Zeolite 13X. The model is implemented in COMSOL Multiphysics. Finally, the experimental and model results are compered to verify the reliability of the model. Possible improvement both for the setup layout and model implementation are proposed at the end of the work.