Proof of Concept of a Novel Solid–Solid Heat Exchanger Based on a Double L-Valve Concept
Author:
Papalexis Christos1ORCID, Stefanitsis Dionisis1ORCID, Zeneli Myrto2, Nikolopoulos Nikolaos1ORCID, Tzouganakis Panteleimon1
Affiliation:
1. Centre for Research & Technology Hellas, Chemical Process & Energy Resources Institute, 52, Egialias str., Marousi, 15125 Athens, Greece 2. Instituto de Energía Solar, Universidad Politécnica de Madrid, Avenida Complutense 30, 28040 Madrid, Spain
Abstract
A proof of concept of a novel parallel-flow solid–solid heat exchanger consisting of two L-Valves with concentric vertical tubes, named as Double L-Valve, is presented for the case of the Carbonate Looping process, as a CO2 capture technology. The operational objective of the solid–solid heat exchanger is to heat up the relatively cold solid stream coming from the carbonator reactor by absorbing heat from the hotter stream coming from the calciner. This novel solid–solid heat exchanger concept has been constructed on a small scale to study the hydrodynamic response of the system experimentally at different designs and airflow rates in its cold state. Based on the experimental data from the small prototype, a scaled-up hydrodynamic model is proposed that provides estimations for the operational requirements at an industrial scale. Apart from the cold flow pilot model, the heat exchanger is being assessed in the current work for an industrial case study in terms of the following: (a) the heat transfer via rigorous one-dimensional thermal modelling, (b) the structural integrity of the design through Finite Element Method (FEM) analysis, and (c) a parametric study for its expected cost. The purpose of this work is to provide a holistic approach of this novel solid–solid heat exchanger concept, the main advantage of which is its simple design and relatively low cost.
Funder
ANICA (Advanced Indirectly Heated Carbonate Looping Process) project ACT programme German Federal Ministry of Economic Affairs and Energy Department for Business, Energy and Industrial Strategy of the United Kingdom Greek General Secretariat for Research and Technology
Subject
Energy (miscellaneous),Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment,Electrical and Electronic Engineering,Control and Optimization,Engineering (miscellaneous),Building and Construction
Reference34 articles.
1. Review and Research Needs of Ca-Looping Systems Modelling for Post-Combustion CO2 Capture Applications;Grasa;Int. J. Greenh. Gas Control,2016 2. Mohn, P., Hofmann, C., Alobaid, F., Ströhle, J., and Epple, B. (2022). Application of Chemical-Looping Combustion on Waste-to-Energy: A Techno-Economic Assessment, Elsevier. 3. A Twin Fluid-Bed Reactor for Removal of CO2 from Combustion Processes;Shimizu;Chem. Eng. Res. Des.,1999 4. Hirama, T., Hosoda, H., Kitano, K., and Shimizu, T. (1997). Method of Separating Carbon Dioxide from Carbon Dioxide Containing Gas and Combustion Apparatus Having Function to Separate Carbon Dioxide from the Combustion Gas. (5665319A), U.S. Patent. 5. The Calcium-Looping Technology for CO2 Capture: On the Important Roles of Energy Integration and Sorbent Behavior;Romeo;Appl. Energy,2016
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