DEVELOPMENT OF A COMPUTER MODEL FOR IMPROVING THE SYSTEM OF PASSIVE HEAT REMOVAL FROM THE HOLDING POOL WITH A TWO-PHASE RING THERMOSIPHON

Abstract

The purpose of this study is to create a computer model that will be used to improve the passive heat
removal system from the holding pool with a two-phase annular thermosiphon. This model will allow you
to analyze the operation of the system, determine a set of quasi-optimal solutions for its parameters and
improve the efficiency of heat removal. The development of such a model can help improve heat transfer
processes and improve the efficiency of the system as a whole. Method. To solve this problem, mathematical
and computer modeling methods were used, the mechanisms of heat transfer in the system were studied
and optimal parameters for effective heat removal were determined, as well as various design options
and system parameters were compared to select the most effective solution. The use of these methods
provided an integrated approach to the development and improvement of a passive heat removal system
with a two-phase ring thermosiphon. Result. A computer model has been developed to improve the system
of passive heat removal from the holding pool with a two-phase annular thermosiphon. This model allows
you to analyze the operation of the system, improve its parameters and improve the efficiency of heat removal.
Creating such a model is an important step in the development and improvement of the system,
allowing you to more accurately predict its performance and make the necessary improvements. Conclusion.
The developed computer model can be used for further research, improvement of heat removal processes
and increase the efficiency of the system as a whole. It allows you to study the heat removal processes
in more detail and adjust the operation of the system. The model provides an opportunity to perform
numerical calculations, analyze various scenarios and evaluate the effectiveness of changes in system
parameters.