RO126007A2 - Electrical equipment for power microstations used for supplying drilling installations with electric energy - Google Patents

Abstract

The invention relates to an electrical equipment for a power microstation which uses one, two or more motor-generator groups furnishing the electric energy necessary to supply a drilling installation located in an isolated area. According to the invention, the equipment comprises an electric generator (2) in connection both with two current measuring transformers (10 and 11) connected in series in two phases of the generator (2) and with the voltage measuring transformer (12) in order to determine the electric power furnished by the generator (2), the secondary windings of the two current measuring transformers (10 and 11) being connected in series with the current measuring windings of an electronic governor (8) for the motor, with current measuring windings of an inverse power measuring relay (25) and with the measuring windings of a power measuring module (26) and the secondary of the voltage measuring transformer (12) being connected to the measuring inputs of the voltage corresponding to the electronic governor (8), of the inverse power measuring relay (25), of the power measuring module (26), of a voltage measuring relay (23) and of the frequency measuring relay (24), the electronic governor (8) comparing at its input the value of the speed of a Diesel engine (1) measured by a magnetic transducer (7) and the reference value imposed by a speed control potentiometer (20), so that the governor (8) generates at its output a control voltage which actuates an actuator (9) located on the Diesel engine (1), also depending on the generator measuring power (2), by said voltage there being controlled the fuel injection system in order to correlate the power of the Diesel engine with the electric power furnished by the generator (2) and to carry out the required corrections for maintaining the engine speed at a constant value which corresponds to a constant frequency of the voltage generator (2).

Description

Electrical equipment for micro-power plants used to supply electric power to drilling rigs

The invention relates to an electrical equipment for a power plant that uses one or more generator sets (diesel generator or gas generator) that provide the electricity needed to supply drilling rigs located in remote areas, away from the national power grid with electricity. The equipment provides the functions necessary for the control, protection, synchronization .coupling and parallel operation of several diesel generator sets.

Equipment for micro-power plants used to supply drilling rigs located in isolated areas using diesel generator sets are known which have the following disadvantages:

- the equipment does not have control functions and software configurable according to the characteristics of the generator motor group

- the active and reactive electric power provided by the generator is not correlated with the power developed by the diesel engine in the case of large and fast load shocks to the generator

- the verification of the synchronization conditions of the generators is not performed with the same unique control devices switched on each generator motor group

The technical problem solved by the invention is the control, protection, synchronization. Coupling and parallel operation of several diesel generator groups that provide electricity to the specific parameters for supplying power electronics equipment from drilling installations such as static power converters for actuation. with speeds ^ variable electric motors from mud pumps, winch, rotary table and auxiliary services from drilling installations.

The electrical equipment for micro-power plants used for the power supply of the drilling installations, according to the invention, eliminates the above disadvantages by the fact that for the control .protection and parallel operation of the generator diesel groups, the electric power provided by an electric generator is determined by measurement of generator current; · Κ · r? at Ρί.ίΐπΐ; s ş; upcij

The e '·. ϋ 1 ·: ΰνί; ΐ: Γ; V 9 9 ij 9 j '...... j (Λ - 2 Ο Ο 9 - Ο Ο 3 6 9 - Ο 8 -05- 2009 with two current measurement transformers inserted on two phases of the generator and by measuring voltage of the generator with a voltage measurement transformer; the secondary of the two current measuring transformers are inserted with the current measurement windings of an electronic engine speed regulator, with the current measurement windings of a reverse power measurement relay and with the current measurement windings of a power measurement module, and the voltage transformer secondarys are connected to the corresponding voltage measurement inputs of the electronic engine speed regulator, of the reverse power measurement relay of the power measurement module , of a voltage measuring relay, of a frequency measuring relay; electronic diesel engine speed regulator, besides the measurement value Your electrical power of the generator determined above receives at its input and the value of the diesel engine speed measured by a magnetic transducer measuring the speed of the diesel engine, which is compared with the prescribed value from a speed control potentiometer so that according to the measured power of the generator, it generates at the output a voltage that actuates an actuator located on the diesel engine that controls the fuel injection pump to correlate the power of the diesel engine with the electric power provided by the generator and to make the necessary corrections to keep the ration of the engine constant which corresponds to a constant frequency of the generator voltage.

The electrical equipment for micro-power plants used for the electric power supply of the drilling plants, according to the invention, has the following advantages:

- The equipment performs the functions of protection, control, control and synchronization of the generator motor groups with the help of a controller with programmed logic and offers an increased number of binary or analog inputs / outputs which gives them a high degree of flexibility and software configuration possibilities to provides control, control and protection of various types of diesel engines, gas engines, etc

- rapid implementation of programs with diagnostic functions of good functioning

- high efficiency and safety in operation

- the synchronization system is compact using a single set of devices for all generators

3) (Κ-2 Ο 0 9 - Ο Ο 3 ⁶ Ο - Ο 8 -05- 2009

The following is an example of embodiment of the invention in connection with Figures 1,2,3 and 4, which represents fig. 1 Schematic diagram for the control and protection of a generator diesel group fig. 2 Schematic diagram of the control circuits with controller with programmed logic. of a diesel engine and synchronization of two generators fig. 3 Principle scheme for connecting two generators to common voltage bars fig. 4 Principle scheme for checking the synchronization conditions of two generators. The equipment for power plants used for supplying the drilling rigs controls and the protection of several diesel generator sets that are coupled in parallel.

The electrical equipment for micro-power plants used for the power supply of the drilling installations, according to the invention fig. 1, has in its composition a diesel engine 1 which drives a synchronous electric generator 2 which provides electricity for supplying a drilling well, located in a isolated area, land or sea.

The diesel engine 1 which drives the generator 2 is provided with motor protection sensors, fig. 1, for example a sensor for minimum oil pressure 3, a sensor for the minimum level of cooling water 4, a sensor for the temperature of the cooling water 5, a sensor for the engine speed. engine operation 6. If the preset limits of the monitored sizes are exceeded, each sensor acts as a contact. The (closed. Open) states of these contacts represent the information that is used by the electrical equipment to perform the motor protection functions. Diesel engine speed is measured by a magnetic speed transducer 7 which transmits the measured value to an electronic engine speed regulator 1. This regulator by measuring the electrical power provided by the generator and by a common connection with the regulators of the other generators connected in parallel to common bars ensures the equal distribution of the active powers (loads) between generators and makes the necessary corrections for the precise control of the engine speed and implicitly of the generator voltage frequency, by command of an actuator 9, located on the motor, which is connected to the power system

Cv- 2 O O 9 - O O 3 b O - C 8 -05- 2009 with engine fuel. The actuator transforms the control voltage from its input

supplied by the regulator in a mechanical output size that acts on the fuel system of the engine.

For the equal distribution of the active powers, the electronic engine speed regulator 8 measures the electrical power provided by the generator by measuring the generator current by two current measurement transformers 10 and 11 and by measuring the generator voltage by means of a voltage measurement transformer12. Through a communication connection for data transmission between the electronic speed controllers of the groups connected in parallel to a system of common bars, the electrical powers of the groups are compared and the necessary corrections are transmitted to each actuator to achieve an equal distribution. generator charging. By using the electronic engine speed controller 8 and the adjustment functions described above, the optimal adaptation of the electric power provided by the load generator with the mechanical power available at the diesel engine shaft is achieved.

For the control and control of the engine operating modes, a motor control switch 13 with four positions a, b, c, d corresponding to the engine operating modes is used: fig. A for the engine start-stop command, the position b for engine operation at idle speed, position c for nominal speed operation and position d for engine operation under load. Selector 13 is provided with three contacts which close successively at each position of the selector, according to the legend in Fig. 2 connected to the binary inputs of a controller with programmed logic 14. It has in its component a unit with programmable logic, a communication module, modules with binary inputs and binary outputs, modules with analog inputs and analog outputs, operator panel

Based on a program implemented in the controller, conditioned by the operation of the generators at the nominal parameters (nominal excitation current, voltage and nominal frequency at each position of the selector 13, the relevant binary outputs of the controller to which a start-up relay-motor 15 are connected are activated. , a motor idle speed relay 16, a load-free motor control relay 17, a load-speed motor relay 18, fig 2.

The contacts of these relays are used to interconnect the equipment with the electrical diagram of the local control panel of the generator motor group, to carry out the remote control of the generator motor group.

^ - 2 0 0 9 -ΟΟ369-0 8 -05- 2889

The generator 2 is coupled to the bars by a power switch 19, fig1.

The voltage of the generator 2 is controlled by the excitation regulator generator 20, which regulates the current by the excitation winding 21 and makes the necessary corrections to keep the generator voltage constant depending on the generator load. Adjusting the frequency of the generator voltage to obtain a value equal to the frequency of the bar voltage, for the purpose of synchronizing and coupling the generator to the bars, is performed with a potentiometer 22 connected to one of the inputs of the electronic engine speed regulator 8.

The generator protection when exceeding the maximum and minimum values of the voltage or frequency is achieved with a voltage measurement relay 23 and with a frequency measuring relay 24 which are connected to the secondary of the voltage measurement transformer 12. The relays each activate a contact for the minimum and maximum maximum values of the measured quantities. The contacts are connected to the binary inputs of the controller with the programmed logic 14, fig1. The protection of the generator at the reverse power flow respectively from the bars to the generator, if several generators are connected in parallel, is performed by measuring the generator current and the generator voltage with a reverse power measurement relay 25. When exceeding the maximum permissible value preset of the reverse power relay 25 activates a contact connected to a binary input of the controller with programmed logic 14.

The measurement and display of the values of the active power, the reactive power, the voltage, the current and the frequency of the generator are performed with an electronic power measurement module 26 by measuring the generator current with the two current transformers 10 and 11 inserted on two phases of the generator and by measuring the voltage of the generator with the voltage measurement transformer 12. The secondary of the two current transformers are inserted with the current windings of the electronic speed regulator 8 for the motor, with the windings of the reverse power measurement relay 25 and with the current windings of the electronic power measurement module 26. The voltage measurement transformer 12's are connected to the corresponding voltage inputs of the electronic speed regulator 8 for the motor, the reverse power measurement relay 25 and the electronic power measurement module 26. This module also measures and transmits the analog values of the active and reactive power of the generator which is transmitted to two analog inputs of the controller with programmed logic 14.

All contacts from the protection sensors of the diesel engine 1 and from the generator protection relays are connected to the binary inputs of the controller with the programmed logic 14 and represent binary signals that are processed by a program implemented in the PLC. Depending on the inputs that are active, the activation of some binary outputs of the PLC is connected to which an alarm relay 27, a fault relay 28, a switch-off relay 29, a generator de-energizing relay 30, fig. 1 are connected.

The contacts of these relays are used for the interconnection and integration of the equipment in the drilling installation, and based on the program the necessary protection functions are performed. Coupling of a generator, for example generator 2, at bars at which there is no voltage is performed directly without meeting synchronization conditions. . The coupling of a generator to voltage bars, for example another generator 31, can only be achieved after the synchronization conditions which assume equal values of voltages and frequencies, the phase difference between voltages equal to zero.

The synchronization check and the connection of a generator to the bars is performed with a synchronization selector 32 for generator 2 and with a synchronization selector 33, for generator 31, fig2. Each selector has three positions, a (stand by), b (synchronization), c (switch coupling) and two contacts which close successively at positions b and c of the selector, according to the legend in Fig. 2. These contacts are connected to the binary inputs of the controller with programmed logic 14 and command the successive closing of some relays connected to the binary outputs of the controller with programmed logic.

To check the synchronization of the generator 2, the selector 32 is switched to the position b (synchronization) state in which a synchronization voltage relay connection 34 is activated, by the software by the status a (stand by) of the other selectors. This relay through the contacts 34.1,34.2, fig. 3, connects the synchronization voltage to the synchronization verification devices and to a synchronization verification relay. After adjusting the generator voltage and frequency for the purpose of meeting the synchronization conditions, for switching off switch 19, selector 32 is switched to position c (switch coupling), which causes the actuator of a control relay to close switch 35. fig.

To check the synchronization of the generator 31, the selector 33 is switched to the position b (synchronization) the state in which it is activated, conditioned by the software a (stand by) status of the other selectors, a relay connection synchronization voltage 36 which through the contacts 36.1, 36.2 fig. 3, connects the synchronization voltage to the synchronization verification devices and to a synchronization verification relay ^ -2009-003 ^ 9-0 8 -05- 2009

To connect the generator 31 to the bars, the selector 33 is switched to position c (switch coupling) in which a switch relay control relay 37 is actuated. Generator voltages 2 and 31 are measured by two generator voltage transformers 38 and 39 respectively. of bars is measured by a transformer measuring voltage of bars 40.

The synchronization conditions are checked with specific devices, respectively, a double voltmeter 41, a double frequency meter 42, a synchronizer 43, a synchronization lamp 44 and a synchronization check relay 45., each having two pairs of terminals.

The first pair of terminals of the double voltmeter 41, of the double frequency meter 42, of the syncronoscope 43, of the timing lamp 44 and of the synchronization check relay 45 are connected in parallel and through the contacts 34.1, 34.2 or 36.1, 36.2, they are connected to the voltage. synchronization of the generator to be connected to the bars.

The terminals forming the second pair are connected in parallel and are connected to the secondary of the voltage measuring transformer bar 40, together with the coil of a bar relay 46. Check the device indications, adjust the generator voltage and frequency so that the synchronization conditions are met.

The generator 31 is connected to the bars with the switch 47.

The circuits for actuating the switches are shown in fig. 4. From position b (synchronization) of selector 33, the relay for connecting the synchronization voltage connects, through the pair of contacts 36.1, 36.2 the synchronization voltage on the first pair of the terminals of the synchronizing devices and through the contact 36.3 it connects the supply voltage for the coil. the minimum voltage 48 and for the armature motor of the drive mechanism 49 of the generator coupling switch 47. After checking and fulfilling the synchronization conditions, contact 45.1 of the synchronization check relay 45 is closed, connected in parallel with a contact with a contact 46.1, of the bar relay 46.

When switching selector 33 to position c (switch coupling) the control relay closure generator switch 37 through the contact 37.1 supplies, the electromagnet closing switch 50 thus making the connection of generator 31 to bars

Similarly, the generator 1 can be connected to voltage bars with switch 19 having a minimum voltage coil 51, a motor 52 and a closing electromagnet 53, fig. 4.

^ -2009-00360-O 8 -05- 2009

Claims (5)

1 Electrical equipment for micro-power plants used to supply drilling rigs characterized in that for the control, protection and parallel operation of the generator diesel groups, the electric power provided by an electric generator (2) is determined by measuring the current of the generator with two transformers. current measurement (10) and (11) inserted on two phases of the generator and by measuring the voltage of the generator with a voltage measurement transformer (12); the secondary windings of the two current measurement transformers are inserted with the current measurement windings of an electronic speed regulator (8) for the motor, with the current measurement windings of a reverse power measurement relay (25) and with the windings of a power measurement module (26) and the secondary of the voltage measurement transformer (12) is connected to the corresponding voltage inputs of the electronic speed regulator (8) for the motor, of the reverse power measurement relay (25), of the power measurement module (26), of a voltage measurement relay (23) and of a frequency measuring relay (24); the electronic speed controller (8) of the diesel engine compares at its input the value of the diesel engine speed measured by a magnetic transducer for measuring the speed of the diesel engine (7) and the reference value imposed from a speed control potentiometer (20) such that in function and of the measured power of the generator the regulator (8) generates at the output a control voltage that actuates an actuator (9) located on the diesel engine by which the fuel injection system is controlled to correlate the power of the diesel engine with the electric power provided by the generator and to make the necessary corrections to keep the engine speed constant which corresponds to a constant frequency of the generator voltage. 2 Electrical equipment for power plants used for supplying drilling rigs according to claim 1, characterized in that for control, protection and ί · ^ν - 2 Ο Ο 9 - Ο Ο 3 6 9 - Ο 8-05-2089 control of operating regimes of a diesel engine (1) which drives an electric generator (2) a four-position motor control selector (13) using a, b, c, d corresponding to the engine operating regimes (a-stop engine, b-operation) is used. at idle, c- load-free operation, d-load-operation) and whose contacts are closed successively at each selector position and connected to the binary inputs of a controller with programmed logic (14), which based on a program implemented by motor control, activates the corresponding binary outputs to which a motor start start relay (15), a motor idle speed relay (16), a function control relay are connected load-free motor drive (17), a load-speed engine relay (18) whose contacts are used for remote engine control by interconnecting the equipment with the local control circuits of the diesel generator group 3. Electrical equipment for power plants used for supplying the drilling rigs according to claims 1 and 2, characterized in that for the protection of the generating diesel group, the motor protection contacts provided by a minimum oil pressure sensor (3), by a sensor minimum level of cooling water (4), a maximum temperature sensor (5), a diesel engine speed sensor (6), and generator protection contacts provided by a voltage measuring relay (23), a relay frequency measurement (24), a reverse power measurement relay (25), are connected to the binary inputs of the controller with the programmed logic (14) which, based on an implemented program, depending on the protection sensors that are activated and the whose function is displayed on an operator panel related to the controller, activates the corresponding binary outputs of the controller to which an alarm relay (27), a relay d there is a fault (28), a switch-off relay (29), a generator de-energizing relay (30) whose contacts are used to interconnect the equipment with the local control circuits of the generating motor group. (X-2 ο? - c c 3 O X5- 291 ' 4. Electrical equipment for micro-power plants used to supply drilling rigs according to claims 1,2,3, characterized in that a selector (32) with three positions marked a (stand by) is used to control the synchronization and coupling of a generator 2 to the bars. ), b (synchronization), c (generator switch coupling) whose contacts are closed successively at positions b and c and controls the binary inputs of the controller with programmed logic (14) so that at the position ba of the selector, based on a program implemented in the controller (14), a binary output is activated which activates a generator synchronization voltage connection relay (34) which connects the generator synchronization voltage (2) provided by a generator voltage measurement transformer (38), to two terminals obtained by connecting the first pairs of measuring terminals in parallel, of a double voltmeter (41), of a double frequency meter (42), of a s an incronoscope (43) and a synchronization check relay (45) having the other two measuring terminals connected in parallel and connected to the voltage from the bars by a bar transformer (40); simultaneously the relay (34) connects through its contacts the supply voltage to the minimum voltage coil (51) and to the armature motor of the drive mechanism (52) of a generator coupling switch (19); on the position that the selector, when fulfilling the synchronization conditions validated by the closing of a contact of the synchronization check relay (45) connected in parallel with a contact of a bar relay (46), the closing electromagnet of the switch (53) is actuated, thus performing the coupling In parallel of the generator at the common voltage bars, a switch relay control relay (35) operates, which when fulfilling the synchronization conditions validated by closing and actuating a contact of the synchronization check relay (45) connected in parallel with a contact of a bar relay ( 46), the closing electromagnet of the switch (51) thus realizing the parallel coupling of the generator (2) to the common voltage bars. 5 Electrical equipment for micro-power plants used for supplying drilling rigs according to claims 1,2,3 and 4, characterized in that for operation without large variations in voltage and frequency of a generator in the event of large and rapid shocks of active power. or reactive to the generator that cannot be picked up by the diesel engine, these are measured by the electronic power measurement module (26) and transmitted to two analog inputs of an integrator regulator implemented soft in the controller with programmed logic (14) that generates at an output analogue a voltage with a controlled growth slope for a predetermined duration until the steady-state value is reached, which is transmitted at the inputs of control and regulation of the current from the static converters used for the variable-speed actuation of the electric motors of the drilling installations through which which commands an increase with a slope of cures of the load generator of the electric generator up to the stationary value.