The purpose of the research was to develop a design of a multi-section climate chamber, to justify the structure of the control system and simulate the heat balance with the use of the device proposed. To ensure the declared capability of the climate chamber, a structural diagram of the control system was developed, which takes into account the following capability list in the controlled volume: ozone concentration control, control of the air recirculation rate, air temperature control, indirect analysis of the temperature distribution, control of the illumination and illumination spectrum, possible secure remote on-line monitoring and control of the system via mobile applications, possible storage of a large set of climatic and regulatory parameters for up to 5 years with the sampling rate of no more than 5 minutes. A mathematical model of the heat balance has been developed, which allows to determine important parameters for a climate chamber consisting of several interacting sections, such as the total power of the heat radiation required and the necessary heat consumption to develop and maintain the plant activity under preset specific conditions.

该研究的目的是开发一种多部分气候室的设计，以证明控制系统的结构并使用所提出的设备模拟热平衡。为确保气候室的声明能力，开发了控制系统的结构图，该控制系统在受控体积中考虑了以下能力列表：臭氧浓度控制、空气再循环率控制、空气温度控制、间接分析温度分布，照明和照明光谱的控制，可能通过移动应用程序对系统进行安全的远程在线监控和控制，可能存储大量气候和监管参数长达 5 年，采样率不超过 5 分钟。