SU1128332A1 - Process for forced distributing of active power flux in closed electric power network - Google Patents

Abstract

POSITIONING THE FORCED DISTRIBUTION OF ACTIVE POWER FLOWS in a CLOSED INHOMOGENEOUS ELECTRIC NETWORK with a longitudinally connected reactor in one of the sections of the unloaded branch of the network is different because, in order to ensure an economic flow distribution of the active power for any reason, the flow patterns of the active load capacity at any given point of the active load of the active load for any reason, the flow patterns of the active load for any effective flow of active power with any target flow patterns, in order to ensure the economic flow distribution of the active power in any way, the flow rates of the active load power at any of the load levels of the active load power will be at the same time. power through the reactor and compare it with the economic value and, if the actual value is greater than the economic value, the resistance of the reactor and increase, and if it is less than the economic one, decrease it until the inequality between them is eliminated.

Description

1C

00 00 00 hO The invention relates to the field of electric power industry and can be used in closed non-uniform electric networks with a voltage of 110 kV and more, in which the natural distribution of active power flows is uneconomical and does not provide a minimum of active power loss. A known method of forcibly distributing active power flows of a zh4-closed heterogeneous network with longitudinally connected reactors of unchanged inductive co-operation at all sites having the reduced ratio of inductive resistance to active. In such a way, the heterogeneous network is artificially transformed into a uniform lj. This method provides economical flow distribution of active power in all normal load conditions of the network, however, leads to a significant increase in reactive power losses and to a sharp decrease in voltage levels at the load nodes. The closest in technical essence to the invention is a method of forcing the distribution of active power flows in a closed non-uniform electrical network with a longitudinal-inlet network in one of the sections of the unloading branch of the network. The well-known endpoint allows achieving an economic distribution of the active power of the network 8 (for a given ratio of load nodes), despite the fact that the latter remains heterogeneous. In this case, the loss of reactive power is negligible and the voltage in the load voltage remains at the normal level. However, the use of a single reactor, with which does not change in operating conditions, does not allow the economic flow distribution of active power to be maintained in all normal load conditions. network modes and provides it only with a certain ratio of node active loads. In the case of. By changing this ratio, the distribution of active power flows becomes uneconomical. The chain of the invention is to provide an economic flow distribution of active power at any ratios of the node active loads of the network ..; This goal is achieved by the fact that, according to the method of forcibly distributing the flows of an active power in a closed non-uniform electric network with a long-running reactor, the actual value of the active power flow through the reactor is measured at one of the sections of the unloaded branch of the network and compared with the economic value and if the actual value is greater economic resistance of the reactor increase, and if less economic - reduce to eliminate inequalities between them. The drawing shows a block diagram of a device that implements the proposed method. The device contains an actual power flow measurement unit 1 connected to a current transformer 2 and a voltage transformer 3, an economic power flow determination unit 4, on the inputs of which signals are transmitted to the grid loads, and automatic resistance control unit 5 of the reactor 6. Expediency the change in reactor resistance to one or another short is determined by the difference between the measured actual and calculated economic values of the active power flow and through the reactor. . The economic flow of the active power Pgfn, in an arbitrary area Un, of a closed inhomogeneous contour is determined by the formula, where is the active power of the i-th load node ° 4 ° g - the total resistance of the sections of the contour from 4 to the (feed) node according to the contour traversal path; о - total active resistance of contour sections, respectively, from the th to the / -th node

Claims (1)

METHOD FOR FORCING DISTRIBUTION OF ACTIVE POWER FLOWS IN A CLOSED INHOMOGENEOUS ELECTRIC NETWORK with a longitudinally connected reactor on one of the sections of the unloaded branch of the network, characterized in that, in order to ensure economic flow distribution of active power at any ratios of the active nodal active loads, the value is measured power through the reactor and compare it with the economic value and, if the actual value is greater than the economic value, the resistance of the reactor increases vayut, and if less zkonomcheskogo - reduced to eliminate the inequalities between them. 1128332 2. Active power at any ratios of nodal active loads of the network. This goal is achieved by the fact that a solid, active, evenly switched-on reactor in one of the sections of the unloaded branch of network ¹ measures the actual value of the flow of active power through the reactor. and compare it with the economic value and, if the actual value is greater than the economic value, the resistance of the reactor is increased, and if less: the economic value is reduced to eliminate inequality between them. The drawing shows a structural 2Q diagram of a device that implements the proposed method. The device comprises a unit 1 for measuring the actual power flow connected to a current transformer 2 and a voltage transformer 3, a unit 4 for determining the economic power flow, to the inputs of which signals proportional to the node active loads of the network, and a unit 5 for automatically controlling the resistance of the reactor 6 are supplied. The feasibility of changing the resistance of the reactor in one direction or another is determined by the knowledge of the difference between the measured actual and calculated economic values of the active power flow through the reactor. The economic flow of active power in an arbitrary ⁴⁰ section of a closed inhomogeneous circuit is determined by the formula