Patent Application
20150362536
The invention relates to a kind of technology solution in the high voltage testing equipment and measurement technology filed, more particularly, to a kind of high voltage direct current broadband domain corona current measurement system.
To implement the national energy policy, ensure that the power industry has a comprehensive, balanced and sustainable healthy development, the State Grid proposes a significant strategic move on accelerating the pace of development of the AD-DC UHV grid according to our national conditions. The UHV transmission is developed on the basis of extra-high voltage power transmission, it can realize long-distance and large capacity power transmission is suitable for regional power grid interconnection. Different form UHV AC transmission, UHV AC transmission lines have a lower cost and less power loss, is more suitable for long-distance and large capacity power transmission.
Due to the high voltage level, the UHV transmission conductor will be inevitable resulting in the corona phenomenon. The corona phenomenon of the UHV transmission lines include the corona loss, the field effect, the radio jamming, the audible noise and the space ion flow, etc. As the transmission voltage grade increasing, making a lot of countries draw a higher demand on anticorona, recently, to improve the capacity and distance of power transmission, our country has completed XIANGJIABA to SHANGHAI ±800 kV UHV DC transmission-n project, at the same time the State Grid has already launched previous research of the ±1100 kV HVDC transmission technology. As the HVDC transmission lines in our country will go pass different geographies and environments, with the increasing of the voltage grade, the corona effect will be more prominent. While the atmospheric environment quality of developed countries and our country vary widely, in the according filed of the UHV DC lines corona effect, these countries' experimental data and design methods are difficult to directly use for our country. Therefore it is necessary for a further research of the DC lines corona effect.
The above issues related to the electromagnetic environment most source lies in the corona discharge, and the space radiation electromagnetic field generated by the corona current is the radio interference; High-speed movement of ions produced by corona results air compression generates audible noise, the DC line corona generates the space charge , further generates the space electric field. So that we must focus o-n researching the corona current which discovering the essential character of the electromagnetic environment parameters and the corona discharge. The corona discharge belongs random pulse discharge, has a wide spectrum in the engineering field, for radio interference and other electromagnetic environment parameters, the measure to more than 30 MHZ will be usually taken .From a research standpoint, it should be considered more wide domain. To this end, it is necessary to have an all-weather test method of the corona current broadband do-main, it is also necessary to provides necessary conditions for researching the corona current character under the erect of the UHV transmission lines, hybrid AC/DC transmission lines in different altitude and climatope.
The corona loss and the environmental effect caused by corona are the two key problem need to solved in the DC power transmission project, while corona current is the physic-al quantity directly related to the corona loss and the environmental effect, meanwhile it is also the most direct physical quantity related to the corona discharge situation of the token lines it can provide the reference for the wire configuration of the UHV transmission lines by studying the corona current. The measurement of the previous power system only pays attention to studying the corona loss, and the traditional measuring sampling frequency is low (usually under 2 MHZ), measure performance cannot satisfy the research demand of the UHV transmission line audible noise, the radio jamming an-d the DC synthesis as the corona current research need to b-e promoted, China Electric Power Research Institute has successfully created the sampling resistance sensor with 30 MHz band response. Southern Power Grid Technology Research Center and Tsinghua University have already developed the 50 MHz corona current measurement system, but those existing technology cannot meet the research demand of the UHV d-c corona character, it needs to further develop higher sampling frequency measurement system.
In order to overcome the shortage of the existing technology, the present invention provides a kind of high voltage direct current broadband domain corona current measurement system, has a wide range of measuring frequency, strong ability of anti-electromagnetic interference and other advantages, also can running in long-term stable status under the condition of the UHV DC and all kinds of bad natures, this provides effective technological means for further research the character of the UHV DC corona.
To achieve the above objects, the present invention provides the following technical solutions:
A kind of high voltage direct current broadband domain corona current measurement system is provided by the present invention, said system includes the sampling resistance sensor, the UHV local end measurement unit, the optical fiber transmission unit, the safe location measurement unit and upper monitor; Said sampling resistance sensor and the UHV local end measurement unit both set in the integrated UHV local unit, said sampling resistance sensor samples the corona current signal of the HVDC line, and converts said corona current signal to the voltage signal, said UHV local end measurement unit collects said voltage signal, and gets the optical signal by photoelectric conversion, the said optical signal transforms to the said safe location measurement unit by the said optical fiber transmission unit, said upper monitor performs processing voltage signal, storage it and display it.
Said integrated UHV local unit includes the grading ring A, the sampling resistance sensor, the optical fiber waterproof connector, the UHV local end measurement unit and the shielding ring; Both sides of the integrated UHV local unit are respectively provided with the sampling resistance sensor and the UHV local end measurement unit, the outsides of the said sampling resistance sensor and the UHV local end measurement unit both provided with the shielding ring, the junction between said UHV local end measurement unit and its outside shielding ring has setting an optical fiber waterproof connector for leading the optical signal.
Said sampling resistance sensor includes shielding case, the epoxy resin insulating flange, the PE insulating framework, the compartments body and the sampling resistance; the said sampling resistances have the same resistance value, it is circumferentially arranged and is in the parallel form; locating in the internal of the compartments body, the said compartments body uses the PE insulating framework for being mechanical support bracket, the outside of the PE insulating framework provides the shielding case, the two ends of the said sampling resistance sensor links to the tubular bus-bar respectively by the said Epoxy resin insulating flange and the UHV local end measurement unit.
Said UHV local end measurement unit includes the high speed broadband domain data acquisition unit, USB port, the photoelectric conversion unit A, the serial port, the energy comprehensive management unit and the independent power supply unit; Said high speed broadband domain data acquisition unit connects with said sampling resistance sensor, collects said voltage signals, said voltage signal inputs said photoelectric conversion unit A through said USB port, after conversion the said optical signal is getting; Said Energy comprehensive management unit links to the photoelectric conversion unit A via serial port ; Said independent power supply unit supplies power for the high speed broadband domain data acquisition unit, the energy comprehensive management unit and the photoelectric conversion unit A.
Said independent power supply unit includes storage battery, said storage battery includes battery protect board, said battery protect board uses LFP materials.
Said storage battery includes optical fiber charging unit, uses the optical fiber for optical signal charging said storage battery.
Said High speed broadband domain data acquisition unit includes the AD convert unit, the FPGA unit, the ARM control unit, the buffer cell and the network transmission unit; Said FPGA unit uses the sampling clock to control said AD convert unit converting the corona current signal collected by the sampling resistance sensor into digital signal, and command the buffer cell A to cache the digital signal, said ARM control unit commands the FPGA unit and buffer cell B for transfer the digital signal, said network transmission unit transfers the digital signal to the said photoelectric conversion unit A by the USB port.
Said energy comprehensive management unit includes the power input interface, the power conversion unit, the power supply control circuit, the central control unit, the protection circuit, the power output interface A and the power output interface B; Said power conversion unit link to the said independent power supply unit via the said power input interface, supplying power for the said central control unit and the power supply control circuit is the one hand, on the other hand is controlling the power output interface A and the power output interface B outputting different voltage respectively, the said central control unit controls the said protection circuit and the power supply control circuit, realize power output controlling through the circuit on-off of said power supply control circuit, said protection circuit includes the gas discharge tube and the corresponding parallel TVS, to make sure the said energy comprehensive management unit cannot be surged by the instantaneous high pressure.
Said optical fiber transmission unit includes the optical fiber and the optical fiber insulator; The said optical fiber uses the outdoor multimode optical cable, said optical fiber insulator transfers said optical signal form the UHV local end measurement unit to said safe location measurement unit.
Said safe location measurement unit includes the photoelectric conversion unit B, the USB port, the serial port and the power subsystem; Said USB port and serial port link to the photoelectric conversion unit respectively, said power subsystem supplies power for the photoelectric conversion unit B.
Said upper monitor connects to the said safe location measurement unit by the USB port and the serial port, it receives, stores and processes said voltage signal, further get the corona current signal.
The sampling Rate of the said corona current signal is 1 kHz-1 GHz, its sampling depth is 1 kB˜18 128 MB.
Compared with the prior art, the invention has following advantages:
As shown in
The detail of the embodiments is described as below incorporated with the figures by way of cross-reference for the present invention.
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Said sampling resistance sensor includes shielding case 2, epoxy resin insulating flange 3, PE insulating framework 4, the compartments body 5 and four sampling resistances 11 with same resistance value; Said sampling resistance 11 uses zinc oxide ceramic tube non-inductive resistor, the four sampling resistances 11 are circumferentially arranged and use the parallel form; Locating in the internal of the compartments body 5, said compartments body 5 uses the PE insulating framework 4 for being mechanical support bracket, the outside of the PE insulating framework 4 provides the shielding case 2, the two ends of said sampling resistance sensor links to the tubular bus-bar respectively by said epoxy resin insulating flange 3 and UHV local end measurement unit 9. The hielding case 2 and shielding ring 10 use for shielding, better protect the Sampling resistor sensor form the influence of UHV DC magnetic field. The epoxy resin insulating flange 3, PE insulating framework 4, play the role of fixed and support. The strength of materials is very high, can adapt to the actual installation intensity.
Said UHV local end measurement unit 9 includes the high speed broadband domain data acquisition unit, the photoelectric conversion unit A, the serial port, the energy comprehensive management unit and the independent power supply unit; Said high speed broadband domain data acquisition unit connects with said sampling resistance sensor, collects said voltage signals, said voltage signal inputs said photoelectric conversion unit A through said USB port, after conversion gets said optical signal; Said energy comprehensive management unit links to the photoelectric conversion unit A via serial port; Said independent power supply unit supplies power for the High speed broadband domain data acquisition unit, the energy comprehensive management unit and the Photoelectric conversion unit A.
Said independent power supply unit includes storage battery 7. Said storage battery includes battery protect board, said battery protect board uses LFP materials. Its nominal capacity is 40 Ah.
Said storage battery 7 includes optical fiber charging unit, uses the optical fiber for optical signal charging said storage battery 7.
As shown in
The optical fiber insulator includes low-voltage terminal link fitting 12, low voltage measurement end optical fiber connecting box 13, optical fiber insulator extend fitting 14, high voltage measurement end optical fiber connecting box 15, optical fiber insulator fixed expansion spring 16, interface connected optical fiber insulator and outdoor fiber optic interface 17, interface connected optical fiber insulator and optical fiber of the measurement system 18, grading ring B19 and insulator 20. Wherein low-voltage terminal link fitting 12 connects to the fixed point of low potential side, low voltage measurement end optical fiber connecting box 13, high voltage measurement end optical fiber connecting box 15 use for the delivery of outdoor optical fiber and optical fiber insulator, interface connected optical fiber insulator and outdoor fiber optic interface 17, interface connected optical fiber insulator and optical fiber of the measurement system 18 are the interface connected optical fiber insulator and outdoor fiber optic interface and the integrated UHV local unit, optical fiber insulator fixed expansion spring 16 uses for providing the optical fiber insulator a certain installation allowance and small scope activity ability, grading ring 19 uses to prevents surface discharge, insulator 20 uses for insulation between lines in the high side and the testing tower install hanging point.
Said safe location measurement unit includes the photoelectric conversion unit B, the USB port, the serial port and the power subsystem; The said USB port and serial port link to the photoelectric conversion unit respectively, said power subsystem supplies power for the photoelectric conversion unit B.
As shown in
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The sampling rate of the said corona current signal is 1 kHz˜1 GHz, its sampling depth is 1 kB˜128 MB.
The system has been installed in UHV DC test base of State Grid and has been put into use, has made a lot of corona current measurements research work. The test base has a total length of 1084 meters of test segment, can be used to test double-circuit line on the same tower, the maximum voltage level of the double circuit DC could reach ±1200 kV. Its UHV bipolar dc generator supply DC power for the UHV DC test base, the maximum output voltage could reach ±1200 kV, output current is 0.5 A.
As shown in
At last, in this description of the embodiment, we have detail describe the present invention according to a particular example. The detail embodiment is one example of the invention but not the only one, so the person in this field must be understand that all the alternatives and other equal and/or similar examples are all within the range of the invention and they are all consistent with the spirits of this invention, are all protected by our claims.
| Number | Date | Country | Kind |
|---|---|---|---|
| 201210279738.7 | Aug 2012 | CN | national |
| 201310013394.X | Jan 2013 | CN | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/CN2013/080946 | 8/7/2013 | WO | 00 |
