SU1490305A1 - Axial-flow turbine cylinder - Google Patents

Abstract

The invention relates to the field of turbine engineering and can be used in high and medium pressure parts of axial turbines. The invention improves the reliability and efficiency of the cylinder. The axial turbine cylinder contains the elements 1 of the flow part and the exhaust chamber (K) 2 with outlet pipes (P) 3 located on one side of the plane 4 of the horizontal connector of the cylinder. K 2 is set eccentrically with respect to elements 1 of the flow part with a shift towards the P 3 side. Such a cylinder design reduces the circumferential unevenness of the parameters of the working fluid in K 2, the energy loss in it and the variable aerodynamic forces acting on the last-stage blades 1 flow part. 1 il.

Description

The invention relates to turbine engineering and can be used in high and medium pressure cylinders of axial turbines.

The purpose of the invention is to increase reliability and economy by leveling the floor speeds and pressure.

The drawing shows a turbine, a view along the axis of the mutual arrangement of the flow passage and the exhaust pipe (the dotted line shows the known structure with the concentric arrangement of all the elements, the solid lines are the given structure).

The axial turbine cylinder contains elements 1 of the flow-through part mounted in a housing (not shown) having an exhaust chamber 2 with outlet nozzles 3 located on one side of the plane A of the horizontal housing connector. The exhaust chamber 2 is mounted eccentrically to the elements 1 of the flow part with a shift toward the discharge pipe 3. The elements 1 of the flow part are a rotor With working blades, diaphragms with nozzle vanes, etc.

The cylinder works as follows.

The working fluid, the code from the elements 1 of the flow part, enters the exhaust chamber 2. In each of the sectors (not shown) of the exhaust chamber 2 between the branch pipes 3 (if nozzle 3 is one, then the sector is the whole circumference) the flow is split in two at critical points two branches flowing to the outlet nozzles 3 in opposite directions.

The flow rates near the critical points of the exhaust chamber 2 are small. Increasing when approaching the outlet nozzles 3, the speeds reach a maximum value in the cross sections of the exhaust chamber 2 where the maximum flow rate takes place, i.e. in the area of the outlet nozzles 3. This reduces the maximum transit flow rates in the exhaust chamber 2 and, as a result, decreases in proportion to the square of the maximum loss rate, in particular the pressure loss along the exhaust chamber 2. Together with the decrease in pressure unevenness the circumference is reduced and the variable aerodynamic forces acting on the blades of the last stage.

Claims (1)

Invention Formula An axial turbine cylinder containing elements of the flow part installed in a housing having an exhaust chamber with discharge pipes located on one side of the horizontal plane of the housing, characterized in that, in order to increase reliability and efficiency by leveling the floor velocity and pressure, the exhaust chamber is set eccentrically to the elements of the flow part with a shift toward the discharge pipes.