POWER SUPPLY SEMI-TRAILER FOR ELECTRIC DRIVE FRACTURING EQUIPMENT

Abstract

The present invention discloses a power supply semi-trailer for electric drive fracturing equipment, including a combination of a gas turbine engine, a generator and a rectifying unit, the generator outputs a winding configuration and a voltage required for the rectifying units directly to obviate conventional rectifier transformer equipment. The rectifying unit is connected to the inversion unit through a common DC bus, so that the common DC bus can separately drive multiple inversion units, thus decreasing the wirings of power supply lines. A high voltage inversion unit is disposed on a gooseneck of the electric drive semi-trailer to optimize the spatial arrangement of equipment. The entire power supply equipment has a compact structure, occupies a small area, and is simple in wiring.

Claims

1. A power supply semi-trailer for electric drive fracturing equipment, comprising a power supply semi-trailer body, one gas turbine engine, one generator, multiple sets of rectifying units and multiple sets of inversion units, wherein the gas turbine engine, the generator and the rectifying units are integrated on the power supply semi-trailer body; one end of the generator is connected to the gas turbine engine, the other end of the generator is connected to the rectifying units, the multiple sets of rectifying units are arranged side by side; the inversion units are disposed on a gooseneck of the electric drive semi-trailer body, and the rectifying units are connected to the inversion units through a common DC bus.

2. The power supply semi-trailer for electric drive fracturing equipment according to claim 1, wherein the generator is a double-winding generator, wherein the generator is connected to the rectifying units directly, and wherein the double-winding generator has a phase difference of 30 and a winding configuration of type Y-Y or type D-D.

3. (canceled)

4. (canceled)

5. The power supply semi-trailer for electric drive fracturing equipment according to claim 1, wherein the generator has a power of at least 10 MVA, and a frequency of 50-60 Hz or 100-120 Hz.

6. The power supply semi-trailer for electric drive fracturing equipment according to claim 1, wherein the rectifying units have voltages ranging from 4000 VDC to 6500 VDC.

7. The power supply semi-trailer for electric drive fracturing equipment according to claim 1, wherein each of the inversion units comprises two three-level inverters.

8. (canceled)

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0021] FIG. 1 is a schematic structural diagram of a power supply semi-trailer.

[0022] FIG. 2 is a schematic structural diagram of an electric drive fracturing equipment.

[0023] Wherein, 1. power supply semi-trailer body, 2. gas turbine engine, 3. generator, 4. rectifying unit, 5. high voltage inversion unit.

DESCRIPTION OF THE EMBODIMENTS

[0024] As shown in FIGS. 1 to 2, an embodiment provides a power supply semi-trailer for electric drive fracturing equipment, including a power supply semi-trailer body 1, a gas turbine engine 2, a generator 3, a rectifying unit 4 and an inversion unit, wherein the gas turbine engine 2, the generator 3 and the rectifying unit 4 are integrated on the power supply semi-trailer body 1; there are one gas turbine engine 2, one generator 3, and multiple sets of rectifying units 4; one end of the generator 3 is connected to the gas turbine engine 2, the other end of the generator 3 is connected to the rectifying units 4, the multiple sets of rectifying units 4 are arranged side by side; the inversion unit is disposed on a gooseneck of the electric drive semi-trailer body, there are multiple sets of inversion units, and the rectifying units 4 are connected to the inversion units through a common DC bus. The generator 3 is a double-winding generator. The generator 3 outputs a winding configuration and a voltage required for the rectifying units 4 directly. The power supply semi-trailer is a power supply semi-trailer matched with the electric drive fracturing equipment, which is provided with a combination of a gas turbine engine 2, a generator 3 and a rectifying unit 4 integrated on a power supply semi-trailer body 1. The generator 3 outputs a winding configuration and a voltage required for the rectifying unit 4 directly. This power supply mode directly obviate the rectifier transformer equipment in conventional power supply, making the volume of the power supply semi-trailer smaller. The rectifying units 4 are connected to the inversion units through a common DC bus, so that the common DC bus can separately drive multiple inversion units, thus decreasing the wirings of power supply lines, and simplifying the circuit connection, the wiring becoming more easier.

[0025] The inversion units disposed on a gooseneck of the electric drive semi-trailer body are high voltage inversion units 5. The high voltage inversion units 5 are disposed on a gooseneck of the electric drive semi-trailer body to optimize the spatial arrangement of equipment, so that the entire electric drive fracturing equipment has a compact structure, and occupies a small area.

[0026] The phase difference of double winding of the generator 3 is 30, the winding configuration is type Y-Y or type D-D. The alternating voltage output from the generator 3 ranges from 1600 VAC to 2300 VAC.

[0027] The power of the generator 3 is 10 MVA or above, the frequency is 50-60 Hz or 100-120 Hz, and the voltage of the rectifying unit 4 is 4000 VDC or above, and further the voltage of the rectifying unit ranges from 4000 VDC to 6500 VDC, ensuring that the power supply semi-trailer has a high output power to drive a high-power electric drive fracturing semi-trailer.

[0028] As shown in FIG. 2, it is a schematic diagram of connection between the power supply semi-trailer and the high-power electric drive fracturing semi-trailer. The rectifying units 4 on the power supply semi-trailer body 1 are connected to the inversion units disposed on the gooseneck of the electric drive semi-trailer body through a common DC bus. Each of the inversion units has a compartment structure provided with two inverters therein, and the inverters are three-level inverters. Each inverter can drive one electric motor to work independently. Electric motors are used to drive the plunger pump to work, providing a forceful guarantee for the power supply of the high-power electric drive equipment. The lubricating oil radiator is used to cool the lubricating oil in the plunger pump. An electrical control cabinet is used to implement local manipulation of the electric drive fracturing semi-trailer.

[0029] It will be appreciated to persons skilled in the art that the present invention is not limited to the foregoing embodiments, which together with the context described in the specification are only used to illustrate the principle of the present invention. Various changes and improvements may be made to the present invention without departing from the spirit and scope of the present invention. All these changes and improvements shall fall within the protection scope of the present invention. The protection scope of the present invention is defined by the appended claims and equivalents thereof.