變電站系統(tǒng)過電壓防護(hù)技術(shù)中英文翻譯

1、英文文獻(xiàn)Substation system over-voltage protection technologySecond substation equipment over-voltage protection on electronic information system for the protection of core equipment for the construction of a protected both pressure and other potential system, and through all levels of over-voltage surge

2、 protectors of the current step by step into the land of China, Substation secondary safety equipment and reliable operation.1 second over-voltage substation protection  In recent years, the substation communications, communications systems, protection systems, background management module freq

3、uent over-voltage damage, the main reason for this is weak and its related systems products over-voltage protection level is weak, or no guard against over-voltage Technical measures, the consequences for the safe operation of power grids bring about a greater negative impact. With integrated automa

4、tion systems and automation systems such as communication systems in the substation weak secondary by the wider use of such electronic systems (equipment) components of the integrated more and more, the growing volume of information storage, speed and accuracy of the Increased and operates only a fe

5、w volts, current information only microamp level, thus extremely sensitive to outside interference, especially the lightning and electromagnetic pulse, such as over-voltage tolerance is low. When thunder and lightning, such as over-voltage and accompanied by the electromagnetic fields reach a certai

6、n threshold, ranging from system failure caused, resulted in heavy equipment or permanent damage to its components. Despite the thunder and lightning viewpoint of electronic systems (equipment) is unlikely, but lightning strike near the land, buildings, communication and air supply line directly Lei

7、yun discharge form, or because of electrostatic induction and the impact of electromagnetic induction formation of over-voltage, There might be connected to the power lines, signal lines or grounding system, through various interfaces to transfer, coupling, radiation and other forms of invasive elec

8、tronic system (equipment) and lead to serious disturbances or incidents. Therefore, strengthening and improving the electronic system (equipment) protection, to minimize the impact of interference by lightning and other damage caused direct losses and indirect losses, has become the urgent need to s

9、olve the problem.2 over-voltage protection design  IEC (International Electrotechnical Commission) TC/81 mine technical committee will be divided into internal and external mine mine in two parts, the external mine is lightning rod (or with lightning, lightning network), Yin Xiaxian and groundi

10、ng system, Objects to be protected from direct lightning strikes, mine is to prevent internal lightning and other internal over-voltage damage caused by invasive equipment. A comprehensive mine and over-voltage protection systems must be integrated use of discharge (segregation), both pressure (and

11、other potential), shielding (isolation), grounded, limit pressure (clamp) protection, and other technology, in accordance with the external mine And the principle of internal mine, in accordance with the targets of protective features, flexible application to take concrete measures, constitute a com

12、plete protection system. Over-voltage substation in the form are: Lightning over-voltage, the resonant frequency over-voltage and over-voltage, over-voltage operation, these over-voltage transmission or electromagnetic induction to the way the lines and equipment on a dangerous over-voltage, in part

13、icular, Lightning over-voltage, lightning substation, in the low-voltage power supply system and weak system to produce a strong over-voltage sensor, while the substation to potential rise (for example: the substation grounding resistance to 1 Q, lightning current 10 kA, while the potential for 10 k

14、V), due to the increased potential of the counter lines and equipment damaged lines and equipment and the events have occurred, therefore, despite the substation outside the mine system (lightning rod. Yin Xiaxian And grounding devices) in line with national standards and the requirements of Buban,

15、and the integrated automation and communications automation systems, such as weak secondary have been taken, such as shielding, grounding, isolation, filtering, and other measures, but it can not completely avoid over-voltage powerful lightning And voltage of the system counter the disruption caused

16、 damage and, therefore, the second weak system substation and a mine-voltage must also take the appropriate protective measures, in accordance with the IEC within the mine area EMP, the device's power cord, signal Lines, data lines, and the installation of lightning protection and internal over-

17、voltage devices to prevent lightning sensors, channeling people along the lightning current, voltage counterattack, such as transient voltage surge too transient over-voltage caused by a fault and damaged electronic equipment. Over-voltage surge protection in accordance with its connection mode is d

18、ivided into two series and parallel, the use of over-voltage surge protection tandem with, there may exist because of signal transmission does not match the causes of transmission of the signal interference, in particular data Communication Interface in the series were over-voltage surge protection

19、in place, will have the normal data communications. Therefore, the data communications access I: I in the series were over-voltage surge protection in place, the transmission of data must be carried out conscientiously check if the data are not normal transmission, it may be due to the reasons do no

20、t match the transmission signal Interference, should be replaced to match the over-voltage surge protection for. If the use of over-voltage surge protection for use of parallel, the situation is basically non-existent, but the connection mode of over-voltage surge protection for higher technical req

21、uirements.3 secondary system over-voltage substation protection  3.1 points over-voltage electricity system protection  Substation installed in the communications dispatch automation systems are used AC power or a DC power supply equipment for the rectification of its links are generally l

22、arger capacity filter capacitance, the transient over-voltage shock absorption of a certain extent, the station Low-voltage transformer side go to feed between the screen using a shielded cable and equipment have a good grounding, the use of modern technology to analyze mine, we must increase the ci

23、rcuit's segregation measures, because its grounding, protection and other electrical grounding all Grounding devices using the same equipment, and equipment are in a LPZOB, the relative strength of strong electromagnetic pulse, the station changed to prevent low-pressure side although there are

24、lines intrusive wave arrester, but the residual pressure high, in the substation of lightning, through the line Coupling and the potential rise caused by over-voltage counterattack still exist, and high-pressure side of the residual pressure as high as several thousand volts, it is necessary to thes

25、e scheduling automation equipment for the power supply over-voltage circuit protection. Lightning Protection in accordance with the principle of regional division, substation equipment in the secondary power supply system over-voltage sensors lightning protection may be two (B, C level) for the prot

26、ection of segregation. B-mine use is generally greater flow capacity of the mine installations, the Lightning could be more casual Liuxie people, to achieve the objective of current limit, over-voltage at the same time will reduce to a certain extent, c-mine use With lower residual pressure of the m

27、ine installations, you can loop in the remaining scattered lightning Liuxie people, to limit the purpose of over-voltage, over-voltage equipment can be reduced to the level of tolerance. The main power supply system is inhibited lightning protection and operation of the power back to the road and ov

28、er-voltage surge. According to the substation status of the substation of the second mine-sensing system and the operation and use of two over-voltage protection. As build more substations in the region more open, relatively strong electromagnetic strength, power lines and communication cables are v

29、ery vulnerable to lightning attacks sensors, sensors along the over-voltage power lines and communication lines into one device, which will damage equipment, Therefore, the exchange of first-class bus to install the power protection (B level) is to ensure the safety of the entire control room, and 8

30、0 percent of the over-voltage China, scattered to the earth, play a primary role in the protection, but are still in the exchange of feeder Some of the B-level power supply voltage and mine the residual pressure increases on-line and must therefore be important in the exchange of feeder lines (DC ch

31、arging screen, UPS, etc.) c-level power protection, which would curb over-voltage electrical equipment to back-end To the level of tolerance.Protective location: It is 1 EC1312 (LEMP protection "in the region of lightning protection principles. Arrester installation should be in different locat

32、ions at the junction of protected areas, this network, the first-class protection should be located in the bus exchange. In Two on the bus with the installation of a B-class models of a three-phase power supply voltage surge protector.  Install Location: AC bus (cabinet).  3.1.2 second-cla

33、ss protection measures to deal with  For the more important feeder lines on the exchange of equipment, here for the DC charge screen, the installation of c-level three-phase power arrester. As DC charging screen is two-way exchange of electricity supply, so the screen in the DC charge with the

34、installation of two models of c-level three-phase power supply over-voltage surge protector. Installation location should choose the DC charge screen open exchange of air power  Commissioner Office.  3.2 integrated automation system over-voltage protection  Protective position: Comput

35、er-based integrated automation system's ability to bear a very low voltage, several hundred volts of over-voltage is enough to damage the equipment, so must the high side arrester the residual pressure (thousands of volts) to further curb to meet equipment Insulation level of need, and because o

36、f the potential rise to power and the induction loop is also over-voltage line up on KV, to be used in the exchange of integrated automation system to the exchange on the c-level single-phase installation of a surge Voltage protection. Location should choose to install automated-ping in the Composit

37、e Air switch the AC power.3.3 did not ask off power supplies (UPS) over-voltage protection  Protection here: because of the internal computer systems, hubs, monitoring equipment, electric energy billing systems and so on through the UPS power supply protection, in order to protect the safety of

38、 these micro-electronics equipment, the UPS power supply device in front of the installation of a c-Surge Voltage protection. Optional models: The (UPS for single-phase power input) C-class single-phase power surge or over-voltage protection (UPS for the three-phase power input) of c-level three-pha

39、se power supply over-voltage surge protector. Installation should choose the location of UPS into the front line.  3.4 communication interface over-voltage protection  Communication Interface over-voltage protection compared with the grid supply system, this over-voltage circuit on the deg

40、ree of sensitivity is much higher, and these are over-voltage equipment in the circumstances it is very fragile. Equipment insulation tolerance level is very low. With the equipment connected to a signal line, data lines, measurement and control lines, and these are basically in line LPZOB region, b

41、ut also through the LVZOA region, on the lines of sensors over-voltage relatively strong, according to the IEC test, when the electromagnetic field Strength increased to 0.07 GS, will have a micro-computer equipment malfunction, loss of data. And the safety of these circuits is directly related to a

42、 system of safety equipment, so important to be on the interface circuit over-voltage protection.  3.4.1 remote computer interface devices over-voltage protection  Protective position: As substation computer remote installations scattered distribution structure. From remote modules, intell

43、igent telemetry module, intelligent remote control module, intelligent remote-module. The modules are installed in different automated-ping, through the RS232 interface between the modules or field bus communication. These interfaces are in the indoor circuit, equipment interface circuits shorter th

44、e distance, so there will be no more sensors to the over-voltage, but the automation equipment and other secondary equipment (measurement unit, computer, etc.) have electrical connections, when Other secondary equipment sensors to a strong over-voltage sensors, will be counter to these automation eq

45、uipment, communications interface, so that damage to equipment interface circuits, it is necessary in these devices RS232 interfaces on the installation of a surge Voltage protection. Installation location should choose the remote computer interface devices, communications lines.  3.4.2 electri

46、c energy billing system signals over-voltage protection  A protective position: a multi-functional electronic power substation table, energy acquisition, the electronic power meter to bear a very low voltage levels. As Meter and remote computer stations in the communications equipment used RS23

47、2 interfaces, the communication line is longer, and in LVZOB region, near the substation or by direct lightning strike at the substation, proximity to the high voltage sensors, In order to prevent damage to equipment. E-Meter in and around the RS232 port RS232 installation of the over-voltage surge

48、protector. Location should choose to install electronic power meter in and around the port, RS232.  The location of protection: electronic power meter through the acquisition of information on the collector's MODEM (modem) from telephone lines to send data to a remote, since the introductio

49、n of telephone lines from the outside, the lines on the sensor to sensor lightning current relatively strong, easy to Modem interface equipment damage, it is necessary in the telephone line modem interface, the installation of an interface over-voltage surge protector. Location should choose to inst

50、all telephone Chuxian inside and outside phone lines-the-line people.3.4.3 distance communication interface over-voltage protection  Protective position: Since the basic use of unmanned substation. On the first circuit protection, measurement, control, regulation of signal through the optical a

51、nd data communications network or carrier to the distance (in tune, and stressed that the centralized control stations, etc.) to transmit data. If the carrier, the carrier and the computer automation of the signal devices connected relatively long lines, substations in the vicinity of a direct light

52、ning strike or substations.Should be a strong over-voltage sensors, to be near the computer automation devices to signal I: I-the installation of signal arrester, while in the area and extend to LPZOB LPZOA area of communication lines (DDN, X.25) very easy Lightning sensors on the over-voltage, must

53、 also be the installation of over-voltage surge protector. Installation location should choose the remote device communication line interface Department.  Secondary system over-voltage substation protection issues in recent years by a new task, the above is only related to the scene of the unit

54、 into the actual situation on the Protection of the preliminary measures, it will be in continuing to draw on practical experience of running a summary analysis and continuous improvement, Hope that the new substation in the future or the old substation automation of integrated, strengthen the secon

55、dary over-voltage protection system of planning and design, equipment and ensure the safe and stable operation of power grids.    變電站系統(tǒng)過電壓防護(hù)技術(shù) 變電站的過電壓保護(hù)是以電子信息系統(tǒng)為保護(hù)核心，為被保護(hù)設(shè)備構(gòu)建一個(gè)均壓等電位系統(tǒng)，并通過各級(jí)過電壓浪涌保護(hù)器逐級(jí)把電流泄放入大地，使變電站設(shè)備安全和可靠地運(yùn)行。1 變電站過電壓防護(hù)近年來，變電站的通信、通信系統(tǒng)、繼電保護(hù)系統(tǒng)、后臺(tái)管理模塊經(jīng)常發(fā)生過電壓損毀事件，究

56、其原因主要是其相關(guān)系統(tǒng)和弱電產(chǎn)品過電壓防護(hù)水平較弱，甚至根本沒有過電壓防范技術(shù)措施，其后果對(duì)電網(wǎng)的安全運(yùn)行帶來了較大負(fù)面影響。隨著綜合自動(dòng)化系統(tǒng)和通信自動(dòng)化系統(tǒng)等二次弱電系統(tǒng)在變電站的廣泛應(yīng)用，這類電子系統(tǒng)(設(shè)備)元器件的集成度愈來愈高，信息存儲(chǔ)量愈來愈大，速度和精度不斷提高，而工作電壓只有幾伏，信息電流僅為微安級(jí)，因而對(duì)外界干擾極其敏感，特別對(duì)雷電等電磁脈沖和過電壓的耐受能力很低。當(dāng)雷電等過電壓和伴隨的電磁場(chǎng)達(dá)到某一閥值時(shí)，輕則引起系統(tǒng)失靈，重則導(dǎo)致設(shè)備或其元器件永久性損壞。盡管雷電直擊電子系統(tǒng)(設(shè)備)的可能性不大，但是雷擊附近大地、建筑物、交流供電線路和空中雷云放電時(shí)直接形成的，或者由于靜

57、電感應(yīng)及電磁感應(yīng)形成的沖擊過電壓，都有可能通過與之相連的電力線路、信號(hào)線路或接地系統(tǒng)，通過各種接口，以傳導(dǎo)、耦合、輻射等形式，侵入電子系統(tǒng)(設(shè)備)并釀成嚴(yán)重的干擾或事故。因此，加強(qiáng)和改進(jìn)電子系統(tǒng)(設(shè)備)的防護(hù)，盡量減小其遭受雷電等沖擊干擾損害造成的直接損失和間接損失，已成為當(dāng)今亟待解決的問題。2 過電壓保護(hù)設(shè)計(jì)IEC(國(guó)際電工委員會(huì))TC81技術(shù)委員會(huì)將防雷分為外部防雷和內(nèi)部防雷兩個(gè)部分，外部防雷是指避雷針(或避雷帶、避雷網(wǎng))、引下線和接地系統(tǒng)，是被保護(hù)物體免受直接雷擊；內(nèi)部防雷則是防止雷電和其他內(nèi)部過電壓侵入設(shè)備造成的毀壞。一個(gè)完善的防雷及過電壓保護(hù)系統(tǒng)必須綜合運(yùn)用泄流(分流)、均壓(等電位

58、)、屏蔽(隔離)、接地、限壓(箝位)保護(hù)等各項(xiàng)技術(shù)，按照外部防雷和內(nèi)部防雷的原則，根據(jù)防護(hù)對(duì)象的特點(diǎn)，靈活應(yīng)用，采取具體措施，構(gòu)成一個(gè)完整的防護(hù)體系。變電站內(nèi)的過電壓形式主要有：雷電過電壓、工頻過電壓及諧振過電壓、操作過電壓等，這些過電壓以傳導(dǎo)或電磁感應(yīng)的方式在線路及設(shè)備上形成危險(xiǎn)的過電壓，特別是雷電過電壓，雷擊變電站時(shí)，會(huì)在低壓供電系統(tǒng)及弱電系統(tǒng)產(chǎn)生很強(qiáng)的感應(yīng)過電壓，同時(shí)使變電站的地電位升高(例如：變電站的接地電阻為1 Q，雷電流為10 kA，則地電位為10 kV)，因地電位升高造成對(duì)線路及設(shè)備的反擊而損壞線路及設(shè)備的事件時(shí)有發(fā)生，因此，盡管變電站的外部防雷系統(tǒng)(避雷針引下線及接地裝置)符合

59、國(guó)家及部頒標(biāo)準(zhǔn)的要求，且其綜合自動(dòng)化和通信自動(dòng)化等二次弱電系統(tǒng)也采取了諸如屏蔽、接地、隔離、濾波等措施，但卻不能完全避免強(qiáng)大的雷電過電壓及電壓反擊對(duì)系統(tǒng)造成的干擾和破壞，因此，變電站二次弱電系統(tǒng)內(nèi)部防雷及過電壓也必須采取相應(yīng)的防護(hù)措施，按照IEC內(nèi)部防雷EMP的分區(qū)，對(duì)設(shè)備的電源線、信號(hào)線、數(shù)據(jù)線等加裝內(nèi)部防雷及過電壓器件，防止雷電感應(yīng)、雷電流沿線竄人、電壓反擊、浪涌過電壓等瞬間暫態(tài)過電壓造成系統(tǒng)故障及損壞電子設(shè)備。浪涌過電壓保護(hù)器根據(jù)其接線方式分為串聯(lián)和并聯(lián)兩種，使用串聯(lián)浪涌過電壓保護(hù)器時(shí)，有可能存在由于傳輸信號(hào)不匹配的原因?qū)е聦?duì)傳輸信號(hào)有干擾的情況，特別是數(shù)據(jù)通信接口在串人浪涌過電壓防護(hù)器

60、后，會(huì)產(chǎn)生數(shù)據(jù)無法正常通訊。因此，在數(shù)據(jù)通訊接I：I中串人浪涌過電壓防護(hù)器后，必須對(duì)數(shù)據(jù)的傳輸情況進(jìn)行認(rèn)真檢查，如發(fā)現(xiàn)數(shù)據(jù)無法正常傳輸，則有可能是由于不匹配的原因?qū)е聦?duì)傳輸信號(hào)的干擾，應(yīng)更換相匹配的浪涌過電壓防護(hù)器。如果在使用浪涌過電壓防護(hù)器時(shí)采用并聯(lián)方式，基本上不存在上述情況，但這種接線方式對(duì)浪涌過電壓防護(hù)器的技術(shù)要求更高。3 變電站系統(tǒng)過電壓防護(hù)31 站用電系統(tǒng)過電壓防護(hù)安裝在變電站內(nèi)的通信調(diào)度自動(dòng)化系統(tǒng)大多采用交流電源或直流電源為其設(shè)備供電，在其整流環(huán)節(jié)，一般有較大容量的濾波電容，對(duì)瞬態(tài)過電壓沖擊有一定的吸收作用，站用變壓器低壓側(cè)到站用饋電屏之間采用的是屏蔽電纜且設(shè)備都有良好的接地，運(yùn)用現(xiàn)