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Apparatus, program, system andassociated method of dynamicmixing of fluids, and the processof active control is carried out onnon-contact devices based onelectromagnetic resonancespectroscopy with elements ofartificial intelligence and artificialneural networks.
| Название | Apparatus, program, system andassociated method of dynamicmixing of fluids, and the processof active control is carried out onnon-contact devices based onelectromagnetic resonancespectroscopy with elements ofartificial intelligence and artificialneural networks. |
|---|---|
| Разработчик (Авторы) | Бондарева Ирина Геннадьевна |
| Вид объекта патентного права | Изобретение |
| Регистрационный номер | US 63/465,117 P |
| Дата регистрации | 09.05.2023 |
| Правообладатель | Бондарева Ирина Геннадьевна |
| Область применения (класс МПК) | Топливные технологии ( Раздел F) |
Описание изобретения
A method of dynamic mixing of at least a first fluid stream and a second fluid stream to provide a mixed stream having increased kinetic energy and transformed fluid properties, the method including the following method steps: - providing at least two integrated concentric contours that are configured to simultaneously direct fluid flow and transform the kinetic energy level of the first and second fluid streams; and - directing fluid flow through the at least two integrated concentric contours such that, in two adjacent contours, the first and second fluid streams are input in opposite directions, wherein a zone of accumulation of kinetic energy of a mix is formed at the junction of the adjacent contours such that the stream of mix components which were originally input in opposite directions change direction and become co-terminus and mix, as the component streams of the mix move into the zone of accumulation, the physical effects acting on each stream of each contour are combined, increasing the kinetic energy of the mix and transforming the mix from a first kinetic energy level to a second kinetic energy level, where the second kinetic energy level is greater than the first kinetic energy level, and each of the at least two integrated concentric contours operates independently. An apparatus comprising a first unit including: a first fluid inlet configured to receive the first fluid and a first fluid conducting channel having a segment with a cylindrical shape and a segment with a conical shape and wherein both segments have a common axis of symmetry; at least one second unit including: at least one second fluid inlet configured to receive a second fluid and a fluid input channel oriented at an angle to the common axis of symmetry; and a swirl chamber in communication with the second fluid input channel and a second fluid conducting channel with an axis collinear (coaxial) to the common axis of the first unit; a fluid deflector unit configured to change fluid flow parameters and including at least (two) a first and a second conical deflectors with an axis collinear (coaxial) with the common axis of the first unit and apices oriented in opposite directions; and wherein the deflector unit is located between the first and the second units.
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