SU1020691A1 - Device for automatic controlling of parameters of steam in reducing-cooling plant - Google Patents

Abstract

THE DEVICE FOR AUTOMATIC REGULATION OF PARAMETERS OF PARA IN REDUCTION-REFRIGERATED INSTALLATION by author. St. N 479934, characterized in that, in order to improve accuracy, serially connected reduced steam flow sensor, nonlinear element and differentiator are introduced into it, the latter output being connected to the supply and cooling water valve regulator. YO SO

Description

The invention relates to a power system and can be used in the automation of reduction and cooling plants.

PB to the main author. St. No. 479934, there is known a device for automatically controlling steam parameters in a reduction and cooling installation, comprising a temperature sensor and a temperature correction element for steam pressure, connected to a regulating valve of a cooling water supply valve, and a pressure sensor connected to a regulator of the steam supply valve, wherein the correction element is made as second pressure sensor and electronic differentiator fl].

A disadvantage of the known device is somewhat reduced accuracy.

Nel invention - improving the accuracy of the device.

This goal is achieved by the fact that in a device for automatically controlling steam parameters in a reduction and cooling installation, comprising a temperature sensor and a temperature correction element for steam pressure, connected to the regulator of the cooling water supply valve, and a pressure sensor connected to the regulator of the steam supply valve, the correction element is made in the form of a second pressure sensor and electronic differentiator, series-connected flow sensor of the reduced steam, a nonlinear element are introduced and a differentiator, the latter being connected to a regulator of the cooling water supply valve.

The drawing shows a schematic diagram of the proposed device.

The reduction and cooling unit is equipped with a cooling water supply valve 2 and a steam supply valve 3. The device comprises temperature sensors 4 for reduced steam, sensors 5 and pressure for reduced steam, a flow sensor for reduced steam, differentiators 8 and 9, a temperature set-point 10, a pressure set-point 11, a non-linear element 12, a cooling water supply valve regulator 13 and a steam supply valve 3 regulator 14 .

The correction element 15 is formed by a sensor 6 and a differentiator 8.

With variable modes of operation of steam consumers, the steam parameters change behind the reduction-containment unit 1, controlled by the sensor

VNIIIPI Order 3879/35

Branch of PPP 'Patent', Uzhhorod, st. Project, 4

Claims (3)

DEVICE FOR AUTOMATIC REGULATION OF STEAM PARAMETERS IN REDUCTION-COOLING INSTALLATION by ed. St. No. 479934, characterized in that, in order to increase accuracy, a series-connected flow sensor of reduced steam, a nonlinear element and a differentiator are introduced into it, the output of the latter being connected to the regulator of the supply valve · cooling water. 4 temperature sensors 5 and 6 pressure and flow sensor 7. The input of the regulator 13 of the cooling water supply valve 2 receives signals from a temperature sensor ⁵ , a differentiator 8 connected to a pressure sensor 6, a differentiator 9 connected through a non-linear element 12 to a sensor 7 for the consumption of reduced steam, and a setter 10. If there is a signal the controller 13 generates a command signal to move the cooling water supply valve 2. The signal from the temperature sensor 4 is the main and rather inertial15, and the signals from the differentiators 8 and 9 are corrective. When changing the operating mode of steam consumers, the pressure sensor 6 and the differentiator 8 generate a 2 ° anticipatory correction signal, and the regulator 13 command signal to move the cooling water supply valve 2. In static mode, such a proactive corrective signal disappears and does not interfere with the operation of the regulator 13. At. deep changes in the work of steam consumers, i.e. with sharp fluctuations in the flow rate of the reduced steam, a forcing correction signal is generated and the regulator 13 generates a command signal to move the cooling water supply valve 2, compensating for the disturbing effect. Such a signal is generated, connected in series by the sensor 7 35. Steam consumption, non-linear element 12 that implements functions with a dead zone and piecewise linear characteristic, and a differentiator 9. This signal appears only in dynamic 40 modes and when the steam flow goes beyond the dead zone, and in the static mode, the signal disappears and does not tolerate interference with the operation of the regulator 13. At the input of the regulator 14 valve 3 45 steam supply signal from the sensor 5 pressure and from the setpoint 11 pressure. If there is a mismatch signal, the controller 14 generates a command signal to move the supply valve 3 50 ^pa R ^a Improving the accuracy of temperature control by compensating for deep disturbing effects on the consumption of reduced steam provides more optimal working conditions for steam consumers and saves heat energy. Circulation 424 Subscription