A clear analysis of the efficient cavitation technologies and ultrasonic cavitation technological possession and the possible way to improve the efficiency of technological processes for the development of the stem of the cavitators with the high intensity of the ultrasound intensity
Found the main types of microorganisms, which can be present at the bacterially obstructed middle.
Carrying out prior microbiological follow-up to the flow of ultrasonic examination on microorganisms from the exemptions of the current acts.
It is conducting preliminary studies and conducted experimental verification of the effectiveness of producing traditional and nano-modified carbon nanotubes reaktoplastichnih polymer composite materials by the determined application of low-frequency ultrasonic cavitation. A new procedure for the preparation of traditional and nano-modified reaktoplastichnyh polymer composites with the low-frequency ultrasonic cavitation.
In order to improve the energy efficiency of heat transfer processes, the processes of scale formation and corrosion on heat transfer surfaces were investigated. An experimental setup and method of deposition of scale in operating conditions, hot water and steam boilers at a temperature of 95 ± 2 ° C, which differ from the known fact, that allow you to monitor and adjust the rate of scale formation, using a constant supply of fresh water to maintain a constant composition of the aquatic environment.
It resolves an important economic problems associated with the scientific substantiation of energy saving processes and equipment for reactors plasticity improved quality of products, including special purpose epoxy compositions based polymers, fiber reinforced fillers in combination ultrasonic action, as well as the prediction of physical and mechanical properties of the resulting products.