**4. Conclusion**

The problem of irrigation of arid lands by rainfall is acute in different parts of the globe: in the Middle East, China, Africa, and South America. According to World Scientists' Warning to Humanity, the shortage of freshwater per capita on the planet is continuously

## *Rain Tower DOI: http://dx.doi.org/10.5772/intechopen.112937*

growing [26]. The solution of this problem by means of environmentally responsible anthropogenic impacts becomes especially demanding in the conditions of planetary warming and disturbance of the ecological balance in the territories of risky agriculture.

The proposed solution is a continuous industrial production, the management of which allows you to control the level of anthropogenic impact on arid areas, considering possible changes in local climatic conditions.

Continuous accumulation of statistical data and replenishment of the sample of the multiparametric vector of the state of an open physical system formed by a complex of one or more Rain Towers will ensure flexible adaptation of the control system with Artificial Intelligence for the formation of thunderclouds to the continuously changing climatic situation on the planet.

The Rain Tower is an industry 4.0 solution with autonomous power supply. At the same time, the aerothermal power plant built into the tower is the most energyefficient and compact solution in the wind power industry. It is characterized by a low level of noise pollution, has no carbon footprint, and allows desalination of seawater, which is unsuitable for irrigation and agricultural tasks.

In addition to the Rain Tower, such a solution to create an aero-thermal power plant built into the building allows the volumes of electricity generated to be directed to the needs of related infrastructure: residential complexes, sewage treatment plants, or other industrial enterprises of urban infrastructure.

The Rain Tower integrates several inventions and know-how into a single balanced engineering and technical solution, ensuring the interaction of heterogeneous physical processes that guarantee the management of moisture content at specified atmospheric horizons, considering the wind rise and other climatic parameters that affect the formation of thunderclouds.
