RU2716817C1 - Device for use of excess air heat flow energy from power transformer - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to application of auxiliary needs for heating and lighting of substation and electric power stations buildings. Output of power transformer by means of oil cooling pump is connected to input of first oil circulation pipeline, connected to four cooling radiators, outputs of each of which are connected to a pair of fans of air coolers connected to a pair of suction funnels of air cooling respectively. Shaft of oil cooling pump is rigidly connected to shafts of reactive-valve generators and reactive-valve motors, which outputs are connected to inputs of control units. Outputs of control units are connected to electric energy accumulator and are connected to power supply source by electric energy through disconnectors. Outputs of reactive-valve generators are connected to electric energy accumulator connected to power supply source by means of disconnector via disconnectors.

EFFECT: technical result consists in improvement of energy efficiency.

1 cl, 2 dwg

Description

The technical solution relates to the field of application of own needs for heating and lighting of buildings of substations and power plants.

As an analogue, the installation scheme for using excess heat from a power transformer was taken. RF patent No. 2234755, IPC ⁸ H01F 27/08, published on 08/20/2004. The invention relates to a plant for using excess heat from a power transformer. The transformer’s cooling device is connected to the first pipeline to circulate the first fluid coolant between the transformer and the heat pump, with the possibility of transferring heat to the evaporator included in the heat pump, which is connected to the compressor, condenser, and expansion valve through a second pipeline containing the second fluid there is a third pipeline, which contains a third fluid coolant for transferring heat to at least one heat-consuming a module connected to a capacitor. There is also a fourth pipeline, which is directly or indirectly connected to the first pipeline and partially led into rocky soil, earth and / or water, to a combined heat accumulator and radiator, and between the first and fourth pipelines there is a multi-way valve that allows the removal of excess heat from the transformer through the first pipe is either to the heat pump evaporator, or to the specified heat accumulator or emitter.

The disadvantages of the analogue is that the heat flux is not used directly, increasing the loss of thermal energy due to its conversion. As a result, we get a non-energy-efficient installation for using excess heat from a power transformer, as well as a complex device of the invention, which makes it more time-consuming to create, as well as expensive to maintain and repair.

As a prototype, the installation scheme for using excess air heat flow from a power transformer was selected. RF patent No. 128776, IPC ⁸ H01F 27/20, published ^on 05.27.2013.

The device contains a coolant, a heat pump, three pipelines, three valves, four pairs of air coolers, five valves, the first output of the power transformer by means of an oil cooling pump is connected to the inlet of the first oil circulation pipe connected to four cooling radiators, the second, third and fourth outputs of the power transformer through a branch consisting of three inputs connected to the input of the second oil circulation pipeline, therefore, the first and second oil circulation pipelines with are connected to four cooling radiators, the outputs of each of which are connected to a pair of air cooler fans connected to a pair of air cooling suction funnels, respectively, and the inputs of each of the four cooling radiators are connected to a pair of casing for forming an air coolant each, respectively, in each of the four pairs of branches of the third common air coolant pipeline, insulated with thermal insulation of the air coolant pipeline, check valves are installed, necessary e to restrict air movement in the opposite direction, controlled by an automatic control system (ATS) and insulated by thermal insulation of the air coolant pipe, at the outlet of the third common air coolant pipe, insulated by thermal insulation of the air coolant pipe, an entrance to the objects of own use of the air coolant is installed inside the third common pipeline air coolant insulated with thermal insulation of the air coolant pipeline, Before entering the object's own needs of use of air coolant installed suction fan device composed of a body simultaneously connected to the suction fan fastening device, a suction fan, connected to the funnel while the suction blower fan of the suction device.

The disadvantages of the prototype include the non-energy efficiency of the installation for using excess heat from a power transformer, as well as the complex device of the invention, which makes it more time-consuming to create, as well as expensive to maintain and repair.

The objective of the technical solution is to increase the energy efficiency of the installation, by using excess air heat flow from the power transformer for heating and lighting of the auxiliary needs object.

The problem is solved in that the device for using the energy of excess air heat flow from the power transformer, containing a coolant, a heat pump, three pipelines, three valves, four pairs of air coolers, five valves, the first output of the power transformer through an oil cooling pump is connected to the input of the first the oil circulation pipeline connected to four cooling radiators, the second, third and fourth outputs of the power transformer through a branch, consisting of and of three inputs connected to the input of the second oil circulation pipe, therefore, the first and second oil circulation pipes are connected to four cooling radiators, the outputs of each of which are connected to a pair of air cooler fans connected to a pair of air-cooled suction funnels, respectively, and the inputs of each of four cooling radiators are connected with a pair of casings for forming an air coolant each, respectively, in each of the four pairs of branches of the third common pipeline of the air coolant insulated by the thermal insulation of the air coolant pipe, check valves are installed that are necessary to restrict the air flow in the opposite direction, controlled by an automatic control system (ATS) and insulated by the thermal insulation of the air coolant pipe, at the outlet of the third common air coolant pipe, insulated by the thermal insulation of the air coolant pipe, the entrance to the facilities of own use of the air coolant is installed, inside the third common air coolant pipeline, insulated by thermal insulation of the air coolant pipeline, before the entrance of the object of own use of the air coolant, a suction fan device is installed, consisting of a housing that is simultaneously connected to the mount of the suction fan device, the suction fan, simultaneously connected to the suction fan funnel of the suction device a fan, and the input of the auxiliary needs object once the coupler is connected to an additionally introduced electric energy storage device, the impeller shaft of the suction fan device and the oil cooling pump shaft are rigidly connected to the shafts of the reactive valve generators and reactive valve motors, the outputs of the reactive valve motors are connected to the inputs of the control units, and the outputs of the control units are connected to the drive electrical energy and through disconnectors connected to a power source of electrical energy, reactive valve generators through disconnectors connected to an electric energy storage device, an electric energy storage device connected to a power source of electrical energy through a disconnector.

In FIG. 1 shows a diagram of a device for using the energy of excess air heat flow from a power transformer to the initial mode of operation.

In FIG. 2 shows a diagram of a device for using the energy of excess air heat flux from a power transformer in normal operation.

A device for using the energy of excess air heat flow from a power transformer, contains an auxiliary object 1 connected to the inlet of the third common air coolant pipe 4, which is insulated with thermal insulation of the air coolant pipe 5, inside which there is a suction fan device necessary to create a pressure drop, which provides reliable the operation of the check valves, in which the output of the suction fan 2 of the suction fan device, one temporarily connected to the suction fan device funnel, connected to the input of the suction fan device body 3, simultaneously connected to the suction fan device mount, the output of the suction fan device body 3, simultaneously connected to the suction fan device mount, is connected by a third common air coolant pipe 4, which insulated with thermal insulation of the air coolant pipe 5, with inputs of four pairs of check valves, necessary for restricting the reverse air movement controlled by an automatic control system (ATS) and insulated by thermal insulation of the air coolant pipe in each air cooler by means of four pairs of branches of the third common air coolant pipe 6, which are insulated by thermal insulation of the air coolant pipe 5, with inputs of four pairs of return valves 7 in each group of air coolers and heat-insulated air piping 5, the outputs of four pairs of non-return valves 7, necessary to limit the air movement in the opposite direction, controlled by an automatic control system (ATS) and insulated by thermal insulation of the air coolant pipe 5 are connected to the inputs of the air coolers through four pairs of branches 6 of the third common air coolant pipe 4, which are insulated with thermal insulation of the air coolant pipe 5, where the output of each of the four pairs of check valves 7, necessary to limit two the flow of air in the opposite direction, controlled by an automatic control system (ATS) and insulated by thermal insulation of the air coolant pipe 5, connected to the input of the casing of the formation of air coolant 8 in each air cooler, the output of the casing of the formation of air coolant 8 in each air cooler is connected to the input of the cooler radiator 9 , which is common to two air coolers or a group of air coolers of each of four identical groups, in each of the groups of air coolers lei, consisting of two identical air coolers, the output of the cooler radiator 9 is connected to the input of the fan 10, simultaneously connected to the suction funnel of air cooling in each air cooler, in addition, the output of the cooler radiator 9 is also connected to the inputs of the first 11 and second 12 circulation pipelines oil, through each oil circulation pipe, all radiators of each of the groups of air coolers are interconnected, the output of the first oil circulation pipe 11 is connected to the pump inlet and oil cooling 13, the output of the oil cooling pump 13 through a branch of the first oil circulation pipe 11 is connected to the first input of the power transformer 14, the output of the second oil circulation pipe 12 having a branch of three outputs is connected to three inputs of the power transformer 14, the impeller shaft of the suction fan device 15 and the shaft of the oil cooling pump 16 are also rigidly connected to the shafts of the jet engines for the intake fan 17 and the oil cooled pump 18, the inlet of the jet engine for the device of the suction fan 17 and the inlet of the jet engine for the oil cooling pump 18 are connected to the outputs of the control units of the jet engine of the device of the suction fan 19 and the jet engine of the oil cooling pump 20, respectively, the inputs of the blocks control the jet engine of the suction fan device 19 and the jet engine of the oil cooling pump 20 by means of disconnectors 21 and 22 are connected to the output of the electric power source 23 and the input of the electric energy storage device 24, the output of the electric power source 23 is connected to the input of the electric energy storage device 24 through the disconnector 25, the input of the electric energy storage device 24 through the disconnector 26 is connected to the input of the auxiliary object 1, also the input of the energy storage device 24 by means of disconnectors 27 and 28 is connected to the output of the reactive valve generator for the device of the suction fan 29 and to the output of the reactive valve a generator cooling oil pump 30, the valve shaft reactive-generator device for the suction fan 29 and valve shaft-reactively generator cooling oil pump 30 are rigidly connected to the impeller device shaft suction fan 15 and the cooling oil pump shaft 16, respectively.

A device for using the energy of excess air heat flow from a power transformer operates as follows. High temperature oil from the three outputs of the transformer enters the branch from the three inputs of the second oil circulation pipe 12, from the output of the second oil circulation pipe 12, high temperature oil flows to the inlet of the cooler cooler 9 of each of the groups of air coolers, therefore, high temperature oil cooler cooler 9, heats the air coming from the outlet of the fan 10, simultaneously connected to the suction funnel of air cooling, in each air cooler, and then The air cooled from the outlet of the cooler cooler 9 enters the inlet of the casing of the formation of the air coolant 8 in each air cooler, in addition, low temperature oil also enters the input of the first oil circulation pipe 11 from the outlet of the cooler radiator 9, then the oil is low from the output of the first oil circulation pipe 11 temperature enters the input of the oil cooling pump 13, from the output of the oil cooling pump 13, the low-temperature oil enters the input of the power transformer 14 by means of the first oil circulation pipe 11, thereby cooling the power transformer, through each oil circulation pipe 11 and 12, all cooler radiators 9 of each of the groups of air coolers are connected to each other, then heated air from the outlet of the casing for forming the air coolant 8 in each air cooler enters the inlet of the non-return valve 7, which is necessary to limit the movement of air in the opposite direction, controlled by an automatic control system (ATS) and insulated thermal insulation th pipeline of the air coolant 5 by means of a branch of the third common pipeline of the air coolant 6, which is insulated with thermal insulation of the air coolant pipe 5 in each air cooler, from the outlet of the check valve 7, which is necessary to restrict the air movement in the opposite direction, controlled by an automatic control system (CAP) and isolated thermal insulation of the air coolant pipe 5, heated air enters the inlet of the intake fan device, it is necessary to create a pressure drop, ensuring reliable operation of the check valves 7, through branches of the third common air coolant pipe 6, which are insulated with thermal insulation of the air coolant pipe 5 of the third common air coolant pipe 4, which is also insulated with thermal insulation of the air coolant pipe 5, where heated air enters the input of the housing 3 of the device of the suction fan, simultaneously connected to the mount of the device of the suction fan then from the outlet of the housing 3 of the suction fan device, simultaneously connected to the mount of the suction fan device, heated air enters the inlet of the suction fan 2 of the suction fan device, simultaneously connected to the funnel of the suction fan device and then the heated air from the outlet of the suction fan 2 of the suction fan device simultaneously connected to the funnel of the suction fan device is fed to the input of auxiliary needs the use of the air coolant 1, also the impeller shaft of the suction fan device 15 is rigidly connected to the shaft of the jet engine for the device of the suction fan 17 and the shaft of the reactive valve generator for the device of the suction fan 29, the shaft of the oil cooling pump 16 is rigidly connected to the shaft of the reactive valve an engine for an oil cooling pump 18 and with a shaft of a reactive valve generator for an oil cooling pump 30, the reactive valve motors 17 and 18 are controlled from by the power of the control units 19 and 20, respectively, which, in turn, are connected to the electric power storage 24 and through the disconnectors 21 and 22 to the power supply of electric energy 23, to perform switching between normal and emergency operation, the power storage 24 and the power supply of electric energy 23 are interconnected using a disconnector 25, to perform switching between normal and initial operating modes, the energy storage 24 is connected to the reactive-valve generators 29 and 30 with by means of disconnectors 27 and 28, in order to switch between normal and emergency operation, the energy storage device 24 is connected to the input of the auxiliary object using a disconnector 26. In the initial operation mode, disconnectors 25 and 26 are closed, disconnectors 21, 22, 27, 28 are open, power is reactive valve motors 17 and 18, reactive valve generators 29 and 30, auxiliary equipment 1 comes from an electric power supply 23. In normal operation, disconnectors 26, 27 and 28 are closed, disconnectors 21, 22, 25 at a time whips, the power of the reactive-valve engines 17 and 18, the reactive-valve generators 29 and 30, the auxiliary object 1 comes from the energy storage 24.

The proposed technical solution, called a device for using the energy of excess air heat flux from a power transformer, allows you to create an air coolant for heating and lighting buildings of transformer substations and power plants for your own needs, which can improve cooling efficiency, reduce heat loss, and also create a simpler and cheap installation, which makes it time-consuming to create, as well as cheap to maintain and repair.

Claims (1)

A device for using the energy of excess air heat flow from a power transformer, containing a coolant, a heat pump, three pipelines, three valves, four pairs of air coolers, five valves, the first output of the power transformer through an oil cooling pump is connected to the inlet of the first oil circulation pipe connected to four cooling radiators, the second, third and fourth outputs of the power transformer through a branch, consisting of three inputs, connected to the input of the WTO of the oil circulation pipe, therefore, the first and second oil circulation pipes are connected to four cooling radiators, the outputs of each of which are connected to a pair of air cooler fans connected to a pair of air-cooling suction funnels, respectively, and the inputs of each of the four cooling radiators are connected to a pair of casings the formation of air coolant each, respectively, in each of the four pairs of branches of the third common pipeline of the air coolant, isolated x thermal insulation of the air coolant pipe, check valves are installed that are necessary to restrict the air in the opposite direction, controlled by an automatic control system (ATS) and insulated with heat insulation of the air coolant pipe, at the outlet of the third common air coolant pipe, insulated with heat insulation of the air coolant pipe, the input of objects own needs for using an air coolant inside the third common pipeline of an air coolant insulated by thermal insulation of the air coolant pipe, a suction fan device is installed in front of the inlet of the self-use object of using the air coolant, consisting of a housing that is simultaneously connected to a mount of a suction fan device, a suction fan, simultaneously connected to a suction fan funnel of a suction fan device, characterized in that the input of the auxiliary object through the disconnector is connected to additionally introduced by the energy storage device, the impeller shaft of the suction fan device and the oil cooling pump shaft are rigidly connected to the shafts of the reactive valve generators and reactive valve motors, the outputs of the reactive valve motors are connected to the inputs of the control units, and the outputs of the control units are connected to the electrical energy storage unit and through disconnectors connected to a power source of electrical energy, the outputs of the reactive valve generators through disconnectors connected to by an electric energy storage device, an electric energy storage device is connected to a power source of electrical energy by means of a disconnector.

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