RU2230938C2 - Method of control operation of system of vane chargers at variable load - Google Patents

Abstract

FIELD: mechanical engineering; pumps.

SUBSTANCE: according to proposed method, energy consumption at operation of group of vane chargers connected in parallel under nonstationary load with due account of possibility of control of delivery of liquid medium with throttling of pipeline network to consumers and step-by-step control by cutting in one or several groups of pumping units for simultaneous operation. Each group of pumping units includes several different-type vane chargers with different performance characteristics and separate control of each vane charger in group with provision of compatibility of different type chargers in group during operation. Minimum possible power consumption is determined at provision of required delivery over entire range of change of power consumption at minimum tolerable heads and maximum values of efficiency, and value of minimum excess head over entire range of load change in pressure manifold at change of load with optimization of working conditions is determined. In process or real time control delivery of each charger and summary delivery of group of simultaneously operating chargers, pressure in pressure manifold or in check point of network, speed of wheel rotation of each charger, pressure at inlet of each pump and power consumed by drive motor of each charge are determined. By using frequency controlled drive and changing components of pumping equipment, value of minimum excess head in pressure manifold is set.

EFFECT: optimization of operation of system of vane chargers at variable load.

3 cl

Description

The invention relates to the field of pumping technology, mainly to systems for adjusting the operating modes of paddle superchargers depending on the load.

There is a known method of regulating pump systems, in which the electric motors of pumping units are started with frequency regulation, followed by supplying them directly from the field network while stabilizing the nominal mode of selection of the pumped medium, the state parameters of each source of the pumped medium and its pumping unit are monitored to identify sources that do not provide the nominal mode , then control signals are generated to restore the nominal mode by changing the operation parameters appropriate pumping units, and when identifying sources that do not provide the nominal operating mode when the pumping units are in good condition, they automatically determine the optimal sequence of exposure to control signals and carry out it without stopping the units due to individual regulation of the speed of each of the latter when connecting their electric motors to the common for this group, the source of the voltage frequency converter with subsequent resumption of power supply is directly from commercial power supply in case of restoration of the nominal mode (see. RF patent No. 2050472, F 04 D 15/00, 12.20.1995).

In this method of regulation, frequency regulation of the operation of electric motors of pumping units is used depending on operating conditions. However, this method is focused on regulation depending on the source of the pumped medium and does not take into account the consumption mode of the pumped medium, which narrows the possibilities of this method of regulation.

The closest to the invention in terms of technical nature and the achieved result is a method of controlling a pumping station, which consists in regulating the technological parameter at the outlet of the station by changing the speed of the electric motors of the pumps and the number of pumps in operation, while the boundary values of power for all options combinations of pumps operating at nominal speed, measure the speed of the pump, calculate for of a given combination of working pumps, the given boundary values of power by multiplying the previously obtained boundary values by the ratio in the cube of the measured rotational speed to the nominal one, measure the power consumed by the electric motor of one pump, compare this power with the obtained reduced boundary values, and when it goes beyond these values, include or turn off one pump (see RF application No. 98100564, F 04 D 15/00, 09/20/1999).

This method of adjustment allows you to take into account the parameters at the output of the pumping station. However, as a basic parameter, the characteristics of one pump are used, which determine the boundary values of power for all options. Thus, this method is focused on the use of the same type of pumps, which does not allow to fully use the capabilities of controlling the operation mode of each pump in the group and does not allow to optimize the work of the group of different types of pumps. As a result, it does not seem possible to fully optimize the operation of the pumps depending on the needs of the consumer with a variable load.

The problem to which the present invention is directed, is to optimize the operation of the system of paddle superchargers at a variable load and due to this, a significant reduction in energy consumption with the achievement of the highest possible efficiency.

This problem is solved due to the fact that the method of regulating the operation of the system of paddle superchargers at variable load is that they diagnose energy consumption when working with a group of parallel-connected paddle superchargers under unsteady load conditions, taking into account the possibility of regulating the supply of liquid to the consumer with throttling of the piping network and stepwise regulation by including in the simultaneous operation of one or more groups of pumping units, each of which includes There are several different type of supercharger with different characteristics and individual control of each supercharger in the group to ensure compatibility of the various types of superchargers in the group, while determining the minimum possible cost of electricity, provided that the supply required by the consumer in the entire possible range of its change with the minimum allowable head and maximum efficiency values, determine the value of the minimum excess pressure in the entire range of load changes in n pressure collector when changing the load with optimization of the operating mode, and in the process of control in real time measure the flow of each supercharger and the total feed of a group of simultaneously working superchargers, pressure in the pressure head manifold or at the control point of the network, the rotational speed of the impeller of each supercharger, inlet pressure in each pump and the power consumed by the electric motor of the drive of each blower, and by applying a variable frequency drive and changing the composition of the pumping equipment By setting the minimum excess pressure in the pressure manifold.

In addition, if necessary, in the process of optimizing the operating mode and composition of pumping equipment, the impellers of one or more blowers are trimmed, and in the process of diagnosis, complete or partial replacement of pumping equipment is carried out.

During the analysis of the operation of paddle superchargers at variable load, the developed method for selecting the parameters of paddle superchargers is based on the principle of “double” (long-term and short-term) optimization. At the same time, at the first stage, long-term optimization is carried out related to the selection of equipment for predetermined conditions for its operation.

As a result of the analysis of the system’s operation, a mathematical model was constructed for the described adjustment method, which is constructed as follows: as a result of mathematical processing of a statistical set of parameters characterizing the operation of the dynamic system “supercharger - pipeline” for a long period of time (at least one year), we obtain a statistical a series linking the values of the expenses that occurred with the frequency (statistical probability) of their occurrence. The number of categories (intervals) of a series is determined by the degree of non-stationarity of the process, as well as the accounting system (reporting) adopted by the organization operating the equipment.

Taking the process stationary within one interval of the considered statistical series, we take the feed of the supercharger constant within this interval. In the case of minimizing the pressure (pressure) in the considered interval and provided that the supercharger is selected for operation in this particular interval, we get that, with the right choice of the supercharger, its efficiency would have the maximum possible value within the considered interval. Thus, if we accept the number of superchargers selected for inclusion in parallel operation and equipped with an adjustable drive of the appropriate number of intervals of the statistical series under consideration, then the minimum necessary head, maximum efficiency and minimum energy consumption for the required type of equipment will be provided for the required type of equipment for the required volume pumped medium, i.e. a theoretical minimum of the objective optimization function is provided.

Since the installation of a large number (over 20) of superchargers is technically impractical and economically unjustified, it is necessary to find a reasonable compromise by bringing the number of superchargers to the real one. For this, the number of intervals serviced by one supercharger was increased. As the intervals are enlarged, the number of superchargers included in parallel operation decreases, while the energy costs for maintaining an unsteady process increase.

At a certain stage, it was found that the benefits of reducing the number of superchargers become comparable with the additional energy costs arising from a decrease in the efficiency of the entire system. Thus, the limit of the enlargement of the intervals was established and, thereby, the minimum required number of superchargers was previously determined.

A fundamentally new opportunity is provided by an adjustable drive, which allows you to minimize the pressure head to the required level in the entire possible range of feed changes within each enlarged interval. Moreover, as the main criterion, fluctuations in the efficiency values are taken. This circumstance makes it possible to determine, within each enlarged interval, such theoretically preferred values of pressure and flow at which power losses resulting from deviations of the actual operating modes of the equipment from optimal ones will be minimal.

It must be emphasized that at first not actual, but theoretically possible (preferred) parameters are determined that are necessary for the selection of superchargers. And only then are the actual individual characteristics of the superchargers determined, taking into account the equipment actually manufactured by the industry. Since for each enlarged interval we obtain superchargers with different head and supply, then when selecting equipment, the compatibility factor of the characteristics of the superchargers intended for simultaneous inclusion in parallel operation is also taken into account. Due to the limited range of superchargers produced by the industry, it is necessary to strive to ensure that the individual characteristics of superchargers are as close to theoretical as possible. It should be taken into account that a greater discrepancy between the actual and theoretical characteristics will correspond to large energy losses.

After the end of the long-term optimization stage, a short-term optimization was carried out taking into account the accepted individual characteristics of the equipment. Short-term optimization is carried out in real time. Since the actual characteristics of the equipment differ from the theoretical, there is a need to establish such modes of operation of the superchargers that ensure a minimum of costs.

As a result, the main optimization parameters are flow, pressure (pressure) and efficiency. Since all parallel-connected superchargers operate with the same pressure (pressure), by changing the rotational speed of the impeller of each supercharger, it is possible to minimize the necessary pressure, as well as such a distribution of feeds between the paddle superchargers, at which the objective optimization function reaches a minimum.

As a result:

The problem of simultaneous optimization of the composition and operating modes of paddle superchargers in non-stationary technological processes is solved. A connection is established between the expected conditions of their operation, that is, the numerical values of the parameters of the random process with the characteristics of the equipment planned for installation.

Theoretically preferred parameters are determined that determine the selection of superchargers, i.e. As a result of the calculations at the first stage, the parameters are determined that are not the best equipment manufactured by the industry, but the most effective for the given operating conditions.

The area of effective operation of each supercharger in the feed range covered by a group of superchargers is determined. It is shown that the inclusion of the same type of supercharger widely used in practice in parallel operation is due to the simplicity of controlling them, but this is inefficient from an energy point of view.

The use of different types of superchargers provides a reduction in energy costs for their work.

Moreover, for a more complete use of the possibility of an adjustable drive, it is necessary to increase the frequency of rotation of the impellers of the superchargers relative to the nominal. It is advisable to use superchargers, which allow you to increase the frequency of rotation of the impellers by 20-30%. It was revealed that the control of heterogeneous superchargers should be individual, since the synchronous control of a group of superchargers from an energy point of view will be less effective.

When several different types of superchargers with different characteristics are included in parallel operation, the possibility of their joint operation is taken into account.

The method of adjusting the operation of the system of paddle blowers with variable load makes it possible to save electricity up to 30% or more of the actual costs.

Thus, the method of adjusting the operation of the system of paddle superchargers under variable load is that energy consumption diagnostics is carried out during the operation of a group of parallel-connected paddle superchargers under unsteady load conditions, taking into account the possibility of regulating the supply of liquid to the consumer with throttling of the piping network and stepwise regulation by switching on simultaneously the operation of one or more groups of pumping units, each of which includes several different types of blades wall superchargers with different characteristics and individual control of each paddle supercharger in the group with ensuring compatibility of the operation of different types of superchargers in the group. In this case, the minimum possible energy costs are determined, provided that the supply required by the consumer in the entire possible range of its change with the minimum allowable heads and maximum efficiency values is determined, the minimum excess pressure is determined in the entire range of the load change in the pressure collector when the load changes with optimization of the operating mode. In the real-time control process, the flow rate of each supercharger and the total flow rate of a group of simultaneously operating superchargers, the pressure in the pressure head manifold or at the control point of the network, the rotational speed of the impeller of each supercharger, the pressure at the inlet to each pump and the power consumed by the drive motor of each supercharger are measured , and by applying a variable frequency drive and changing the composition of the pumping equipment, the minimum excess head in the pressure head is set Ore.

If necessary, in the process of optimizing the operating mode and composition of the pumping equipment, the impellers of one or more blowers are trimmed, and in the process of diagnosis, a complete or partial replacement of the pumping equipment is carried out. This method of adjusting the operation of the system of paddle superchargers under a variable load can be used wherever a stable supply of fluid is required under the conditions of unsteady consumption of the medium supplied to the consumer, for example, in centralized water supply systems or in central heating systems, especially during a climate change.

Claims (3)

1. The method of regulating the operation of the system of paddle superchargers at variable load, which consists in the fact that they conduct energy diagnostics during the operation of a group of parallel-connected paddle superchargers under unsteady load conditions, taking into account the possibility of regulating the supply of liquid to the consumer by throttling the network of pipelines and stepwise regulation by including in simultaneous operation one or more groups of pumping units, each of which includes several different-type blade pumps Ateliers with different characteristics and individual control of each vane supercharger in the group, ensuring the compatibility of the operation of different types of superchargers in the group, determine the minimum possible energy costs, provided that the supply required by the consumer in the entire possible range of its change with the minimum allowable heads and maximum efficiency values, is determined the value of the minimum excess pressure in the entire range of load changes in the pressure manifold when the load changes and with optimization of the operating mode, moreover, in the real-time control process, the flow rate of each supercharger and the total flow rate of a group of simultaneously operating superchargers, the pressure in the pressure head manifold or at the control point of the network, the rotational speed of the impeller of each supercharger, the inlet pressure to each pump, and the power consumed by the drive motor of each blower, and by applying a variable frequency drive and changing the composition of the pumping equipment, the minimum o excessive pressure in the pressure head manifold. 2. The method according to claim 1, characterized in that in the process of optimizing the operating mode and composition of the pumping equipment, the impellers of one or more superchargers are trimmed. 3. The method according to claim 1, characterized in that during the optimization process, complete or partial replacement of pumping equipment is carried out.