SU132236A1 - Device for regulating the additional water supply of the main condenser of the ship steam-powered installation - Google Patents

Description

Devices are known for regulating the additional supply of water to the main condenser of a ship's steam-powered installation, equipped with a deaerator equipped with two float sensors for limiting water levels therein, a feed distillate tank and a condensate collector.

A distinctive feature of the proposed device is that, along with float sensors of extreme water levels, a membrane sensor of an average water level in a deaerator is used, which, through a jet signal amplifier, sends a command signal to a double action servo motor moving distillate feed tank and water discharge pipeline from the condensate pump discharge line to the feed tank.

Such an embodiment of the device makes it possible to prevent sharp disturbances in the condensate system by supporting a constant average water level in the deaerator and using the float sensors only as protection organs.

The drawing shows a diagram of a device for regulating an additional capacitor pitapi.

The proposed device relates to indirect action regulators with rigid feedback of a force type. It has the following main nodes; membrane level meter 1; water single-flow amplifying relay 2, hydraulic servomotor 3 double acting, equipped with a throttle clan 4 to control the speed of the servomotor, and a dual control valve 5. The latter consists of a top valve located on the line addition 132236-2 -

perpetual powering of the condenser, 6 from the distillate feed tank 7, and the bottom valve on the on-line discharge of water from the discharge line of the condensate pump 8 to the feed tank. Both valves have small bores, designed only to pass a quantity of water corresponding to the full capacity of the evaporator. Such a calculation of the valve sections, as well as their smooth operation, prevent sharp disturbances during the operation of the deaerator 9.

In the absence of leakage from the system and distillate distillate from the evaporator, as well as with their balance, the dual valve occupies a middle position and its two sections are closed.

If the leakage is greater than the supply of distillate from the evaporator (through hot condensate collection 10), the water level in the deaerator decreases and the membrane of the level meter is shifted, shifting the jet tube of the relay away from the middle position. A pressure differential is created between the servomotor cavity, as a result of which the shifting servomotor rises. The movement of the servomotor is limited by a feedback spring which causes the jet tube to return to its middle position. In this case, the upper valve assumes a position in which the incremental supply of the condenser from the tank exactly compensates for the unbalance between the leakage and the supply of distillate, as a result of which the constant water level is restored in the deaerator.

When the flow of distillate from the evaporator exceeds the leakage, the process is reversed and the bottom valve opens to maintain a constant level in the deaerator.

If the mode in which the auxiliary condensate pump has a lower capacity than the evaporator, it is necessary to switch (valve 11 open and valve 12 close) in order to discharge excess condensate to the distillate tank from the drain line rather than the condensate pump.

The proposed device can be used for level control in a wide variety of capacitors, including auxiliary capacitors.

If the distillate in the installation is not supplied to the deaerator, but to the feed tank, a simpler version of the proposed device without a bottom valve for dumping excess in the distillate tank is used.

Subject invention

A device for regulating the additional supply of water to the main condenser of a ship steam-powered installation equipped with a deaerator equipped with two float sensors for limiting water levels in it, an overhead flow tank of distillate and a condensate collector, characterized in that use of float sensors only as protection bodies, along with these sensors an average level membrane sensor is used. water in the deaerator, which, through the jet signal amplifier, sends a command signal to a double-acting servo motor that moves a double valve located on the main condenser supply line of the secondary condenser from the distillate supply tank and the condensate pump discharge line to the supply tank.