The article presents the principle of operation of a jet turbine with a nozzle
based on the "Segner" wheel and studies its shortcomings. In order to eliminate the identified
shortcomings, a guide device was developed, which is installed inside the hydraulic turbine
impeller. Using the Bernoulli equations and the Zhukovsky theory, the energy parameters of a
microhydroelectric power station with a developed divertor device and the water flow rate in a
hydroturbine are determined. The energy parameters calculated on the basis of theoretical
results are analyzed, and it is found that the efficiency of a hydroturbine increases by 10-20%
depending on the water pressure. This describes the guide device and the technical solution for
its placement.
The article presents the principle of operation of a jet turbine with a nozzle
based on the "Segner" wheel and studies its shortcomings. In order to eliminate the identified
shortcomings, a guide device was developed, which is installed inside the hydraulic turbine
impeller. Using the Bernoulli equations and the Zhukovsky theory, the energy parameters of a
microhydroelectric power station with a developed divertor device and the water flow rate in a
hydroturbine are determined. The energy parameters calculated on the basis of theoretical
results are analyzed, and it is found that the efficiency of a hydroturbine increases by 10-20%
depending on the water pressure. This describes the guide device and the technical solution for
its placement.
№ | Author name | position | Name of organisation |
---|---|---|---|
1 | O O.B. | lecturer | TSTU |
2 | Kh S.U. | lecturer | Andijan Institute of Agriculture and Agrotechnology |
3 | R R.A. | lecturer | Andijan State University |
4 | S F.E. | lecturer | Fergana Polytechnic Institute |
№ | Name of reference |
---|---|
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