RU45007U1 - DYNAMIC PUMP OPERATION CONTROL DEVICE - Google Patents

Abstract

The proposed device can be used in areas related to the operation of dynamic pumps operating in a variety of technological lines and cycles in which the circulation of fluid in a closed loop is provided, for example, in the energy sector. The technical problem solved by the utility model is to increase the efficiency and efficiency of the dynamic pumps in circulation systems by changing the pH characteristics of the working environment. For this, the known device for regulating the operating modes of a dynamic pump, which is sequentially connected to the consumer’s circulation circuit and contains a controller, is additionally equipped with a pH reagent tank, a dispenser connected in series to it, the output of which is connected to the input of the dynamic pump, with a pH meter embedded in the circulation circuit, while the controller is connected between the dispenser and the pH meter. 1 ill.

Description

The proposed device can be used in areas related to the operation of dynamic pumps operating in a variety of technological lines and cycles in which the circulation of fluid in a closed loop is provided, for example, in the energy sector. The cavitation properties of dynamic pumps are one of the main indicators of the quality of pumps and in many respects determine the geodetic mark of the pump installation, which in turn is associated with significant financial costs for construction work.

A device (1) is known, which makes it possible to increase the cavitational properties of dynamic pumps by increasing the pressure at the pump inlet by installing a upstream impeller (screw). The disadvantages of this system are the increase in energy consumption for increasing the pressure of the liquid due to the use of an additional impeller, as well as the complexity of the design, which affects the cost of the pump and its reliability.

A device for controlling the cavitation characteristics of a dynamic pump is known, comprising a dynamic pump connected in series with the consumer, a pressure sensor connected to the input of the dynamic pump, and a controller and a frequency converter connected in series with it (2). In this device, the throttling of the flow at the outlet of the pump is associated with large energy losses and not providing the required operating parameters of the system. Frequency control methods change the characteristics of the pump in the direction of decreasing the flow of the working fluid and are ineffective for driving large capacities due to high costs.

The technical problem solved by the utility model is to increase the efficiency and efficiency of dynamic pumps in circulating systems, by changing the pH characteristics of the working

medium without changing the speed and throttling of the flow. Based on the conducted experimental studies, the dependence of the cavitation stock of the dynamic pump on the pH value was established, which shows a decrease in the cavitation stock, i.e., an improvement in the cavitation properties of the dynamic pump with an increase in the pH value (3).

The drawing shows a diagram of the proposed device.

The device contains a dynamic pump 1, sequentially connected to the circulation circuit with a consumer 2, a dispenser 3, a pH meter 4, a container with a reagent 5, a controller 6 connected by feedback 7 to the dispenser. In this case, the dispenser is located at the outlet of the tank with reagent 5, the output of which is connected to the input of the dynamic pump, the pH meter 4 is embedded in the circulation circuit, the output of the pH meter is connected to the controller.

The device operates as follows. The measurement of the pH of the coolant is constantly carried out using a pH meter 4. If this value deviates below the required level, the controller 6 instructs to turn on the dispenser 3 for introducing the reagent from the tank 5 into the circulation circuit. The regulation of the amount of reagent added to the circulation circuit is carried out by controller b through feedback 7 of the controller with dispenser 3.

As a controller it is possible to use the KVINT controller manufactured by the State Research Center Federal State Unitary Enterprise NIITeplopribor, the pH meter is the pH meter of the HANNA pH211 model (Germany), and the dispenser is in the form of a metering pump model ND 0.6 / 1.3 of the concern "Russian pumps".

Thus, the device allows you to adjust the cavitation characteristics of the dynamic pump without throttling the flow and without reducing the flow of the working fluid, that is, to increase the efficiency and efficiency of the dynamic pump.

Literature

1. RF patent No. 2016251, publ. 07/15/1994.

2. Vane pumps: Reference. / Zimnitsky V.A., Kaplun A.V., Papir A.N., Umov V.A .; Under the total. ed. Zimnitsky V.A. and Umova V.A. - L .: Mechanical engineering. Leningra. Department, 1986. p. 175-178.

3. A.V. Volkov, A.I. Davydov, M.Yu. Pomortsev. Experimental studies of the effect of acid-base pH of water on the cavitation properties of energy pumps. "Energy Saving and Water Treatment", 2004, No. 4, p. 44-47.

Claims (1)

A device for controlling the operating modes of a dynamic pump, comprising a dynamic pump connected in series with the consumer, a controller, characterized in that it is equipped with a pH reagent tank, a dispenser connected in series to it, the output of which is connected to the input of the dynamic pump, with a pH meter, embedded in the circulation circuit, while the controller is connected between the dispenser and the pH meter.