RU191112U1 - Device for automatically connecting and switching load power sources for hybrid power plants based on photovoltaic modules, batteries and diesel generator set (DGU) - Google Patents

Abstract

The invention can be used in the field of electrical engineering and energy. The uninterruptible power supply device according to the invention contains a programmable controller that controls the operation of circuit breakers with motorized drives, contactors and circuit breakers that enable the connection and switching of photovoltaic modules, rechargeable batteries and diesel generator set (DGU), while in the absence of voltage from the photovoltaic modules and the programmable controller sends a command to start the diesel generator, and the diesel generator continues to work until until the controller fixes the normal voltage from the photovoltaic modules and batteries, after which the Stop command is issued to the diesel generator. The invention provides a device that allows automatic switching between load power sources in conditions of reduced electricity generation by photovoltaic modules, exhaustion of accumulated battery power or connecting a diesel generator in conditions of peak load consumption. 1 ill.

Description

The technical field to which the utility model relates.

The utility model relates to the field of electrical engineering and energy, in particular to autonomous power supply systems with three-phase alternating current of objects remote from centralized power supply systems using renewable types of energy, for example, solar energy.

State of the art

Known diesel-electric station container design, containing two diesel-electric units, including the control panel of the unit and the power plant, consisting of a diesel engine, a sensor unit, a block of actuators, a parameter control unit, a correction unit for engine speed, an alternating current generator, generator voltage regulator and voltage correction unit, two panels for switching power supplies, switching unit and AC power distribution, voltage three-phase and single-phase alternating current consumers, auxiliary consumers of single-phase alternating current, power supply input unit, power supply lines from an external power supply network, power supply lines of external consumers, auxiliary power supply board and fire alarm system [RU 2345465, C1, H02K 7/18, 01/27/09].

The disadvantage of this device is the low reliability in the conditions of untimely delivery of fuel during its autonomous operation.

A device containing a microcontroller is known, to which two diesel generators, two switches, two control units, a load forecasting unit are connected, with an input connected to a temperature sensor and an output connected to the microcontroller, while the input of each diesel generator is connected to its control unit, and the output is connected to the corresponding switch, the outputs of which are connected to the device bus [RU 109801, U1, F02B 63/00, 10.27.11].

The disadvantage of this device is also low reliability in the conditions of untimely delivery of fuel during its autonomous operation.

A device is known that contains an electric energy generator made in the form of a diesel engine, the output of which is connected to a synchronous generator, the output of which is connected to the load of the device, a control system whose output is connected to a diesel engine and a synchronous generator, a rectifier-charger, the input of which is connected to the output of the synchronous generator and to the control system, a buffer energy storage device, made in the form of a battery pack and whose input is connected to the output of the rectifier -zaryadnogo device autonomous inverter having an input connected to the output buffer and the power storage unit to the control system controller, and an output connected to a load device [RU 113885, U1, H02J 7/34, 27.02.12].

The disadvantage of this device is the limited functionality during battery life.

A utility model is also known that contains an electric energy generator in the form of a diesel generator set, a rectifier-charger, a battery pack, a control unit and an automatic oil change unit, while the control unit is configured to receive control commands from a remote control room and transmit autonomous status data to it power plants [RU 122212, U1, H02J 7/32, 11/20/12].

The disadvantage of this utility model is the lack of alternative sources of electricity in the event of an accident in the unit functioning of a diesel generator set.

A known method of controlling an autonomous container power plant is that they generate electrical energy by means of a diesel generator set, charge batteries from a diesel generator set, control the required charge level by a central control controller, receive / transmit signals from a diesel generator set and a battery to a remote control unit via a central control controller . Electric energy is generated through additional alternative energy sources, namely at least one wind generator with a functioning unit and at least one solar panel with a functioning unit [RU 2598864, C1, H02J 7/00, 09/27/2016].

The disadvantage of this invention is the charging of batteries from diesel generator sets, which increases the fuel consumption of diesel generator sets, reduces the efficiency of the system.

Closest to the claimed utility model is a block-complete power supply device (BKES), made according to option 1, the essence of which is that BKES contains a block box, the inner space of which is divided by partitions into at least two compartments equipped with separate entrances; primary and backup power sources (IE); a switching device to which voltage is supplied from the main and standby IE, and which is configured to supply voltage from the main or standby IE to its output, depending on the presence and quality of voltage of the main IE. Moreover, in the second compartment there is a backup IE made in the form of a diesel generator. In this case, the main IE is made in the form of a photovoltaic system containing solar modules, and a pairing and control unit and a battery unit located in the first compartment [RU 109801, U1, F02B 63/00, 10.27.11].

The disadvantage of the closest analogue of the claimed utility model is its low reliability under cloudy weather or lack of sunlight, because The main IE is the photovoltaic system.

The essence of the claimed utility model is that a device containing a programmable controller that controls the operation of circuit breakers with motorized drives, contactors and circuit breakers, providing the ability to connect and switch photovoltaic modules, batteries and a diesel generator set (DGS), in this case the absence of voltage from the photovoltaic modules and batteries, the programmable controller gives a command to start the DGU, and the DGU continues as long as the controller does not record the normal voltage from the photovoltaic modules and batteries, after which the Stop command is issued to the diesel generator.

The technical result of the claimed invention is to increase the reliability of uninterrupted power supply, reduce fuel consumption of diesel generator sets by optimizing its operation in the system, increase the peak power generated in the system without increasing the installed capacity of power generating devices, and increase the efficiency of the system.

Brief Description of the Drawings

A single-line electrical diagram of the device shown in figure 1.

Utility Model Implementation

The load can be supplied from three sources - photovoltaic modules (input 1), batteries (input 2) and diesel generator set (input 3). Switching the load is carried out using circuit breakers with a motorized drive or using contactors. The operation of motorized drives (or contactors) is controlled by a programmable controller. Description of the controller operation logic: if there is a normal voltage at Input 1 and Input 2, the controller gives a command to turn on 4QS - 7QS in the left position. Power from Input 1 to Load 1 is supplied through a 1QS switch, a 1QF circuit breaker, and then sequentially through the contacts of a reversing switch with a 4QS, 6QS motor drive. Power from Input 2 to Load 2 is supplied through a 2QS switch, a 2QF circuit breaker, and then sequentially through the contacts of a reversing switch with a 5QS, 7QS motor drive. In this case, the load of Output 2 is supplied from Input 1 (photovoltaic modules). The programmable controller can switch to power from input 2 (battery) in accordance with the specified voltage settings by issuing a command to 5QS, which translates to the right position. Power supply circuit - Input 1, 1QS, 1QF, 5QS and further, as during normal operation of 7QS, 5QF to the load of Output 2. If there is no voltage at Input 1 (photovoltaic modules), a similar command is issued, but 4QS is transferred to a different position . If there is no voltage at Input 1 and Input 2 after time T1, a command is issued to start the diesel generator set (Input 3). After the normal voltage appears at Input 3, after a delay time T2, the controller sends a command to switch 6QS, 7QS to the right position. DGU operation continues until the controller detects normal voltage on Input 1 and Input 2, after which a Stop command is issued to the DGU, and 4QS, 5QS, 6QS, 7QS switch to the left position. At times of peak consumption in the case of insufficient power of the PV modules and the battery, the controller issues a command to start the DGU, after the normal voltage appears on Input 3, after the delay time T2, 7QS switches to the right position, which provides power to the load through Output 2 from the DGU.

Claims (1)

An uninterruptible power supply device containing a programmable controller that controls the operation of circuit breakers with motorized drives, contactors and circuit breakers, providing the ability to connect and switch photovoltaic modules, rechargeable batteries and a diesel generator set (DGU), while in the absence of voltage from photovoltaic modules and rechargeable the programmable controller sends a command to start the DGU, and the operation of the DGU continues until the controller p locks the normal voltage from photovoltaic modules and batteries, after which the command is "stop" to the DSU.

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