CPOTE2020
6th International Conference on
Contemporary Problems of Thermal Engineering
Online | 21-24 September 2020
6th International Conference on
Contemporary Problems of Thermal Engineering
Online | 21-24 September 2020
Abstract CPOTE2020-1222-A
Book of abstracts draft
Numerical analysis of high temperature minichannels heat exchanger performance
Jan WAJS, Gdansk University of Technology, PolandTomasz KURA, AGH University of Science and Technology, Poland
Dariusz MIKIELEWICZ, Gdansk University of Technology, Poland
Elzbieta FORNALIK-WAJS, AGH University of Science and Technology, Poland
Jarosław MIKIELEWICZ, Institute of Fluid-Flow Machinery Polish Academy of Sciences, Poland
Nowadays, the most difficult technological challenge in energy sector is connected with the gas micro-CHP units, dedicated to the distributed power generation. They are expected to be of high efficiency and at the same time of compact in size. Regarding the first reason, significant increase in microturbine efficiency can only be achieved by increase in the engine operating temperature. Therefore, one of the critical elements in such installation is the recuperator, which contributes to the overall microturbine efficiency in considerable part. Taking into account the system size and its efficiency, only the compact heat exchangers with passive techniques of the heat transfer intensification can fulfil strict requirements. Very promising are the cylindrical/plate heat exchangers with minichannels or heat exchangers with jets/microjets technology.
In the paper an own construction of plate heat exchanger with minichannels, proposed for high-efficiency gas microturbine engines with external combustion chamber is considered. It consists of a set of steel plates with the channels of rectangular crossection, with 3 mm width and 1.5 mm depth. This unit can be supplied with air at temperature about 1000 degC and transfer the thermal energy to air at temperature close to the ambient level. A numerical model was developed for the entire unit and validated with the experimental results, coming from the analysis conducted on the prototype in the “cold” conditions (at 18 degC) and normal operating conditions (at 957 degC). The experimental and numerical results, referring to the pressure drop, agreed within 2%-14% range, while referring to the heat rate – within 1%-7% range. Analysis of local thermal and hydraulic results was a source of few ideas, concerning an optimization of the heat exchanger construction, oriented at the improvement of its performance.
Keywords: High temperature heat exchanger, Minichannels heat exchanger, Numerical analysis, Thermal-hydraulic characteristics, Gas micro-CHP
Acknowledgment: Results presented in the paper have been carried out within the project RPPM.01.01.01-22-0025/17 titled „Micro heat and power plant with as high efficiency turboset developed by MAPU Ltd as a breakthrough in the area of non-conventional power engineering of small power”. Participation of Tomasz Kura and Elzbieta Fornalik-Wajs was supported by the Polish Ministry of Science and Higher Education and by the PLGrid Infrastructure.