在現(xiàn)代電力系統(tǒng)中�,母線槽作為電力傳輸?shù)年P(guān)鍵設(shè)備,其穩(wěn)定運(yùn)行至關(guān)重要�。然而�����,母線槽在工作時(shí)會(huì)產(chǎn)生熱量���,若散熱與溫升控制不當(dāng)����,會(huì)嚴(yán)重影響電力系統(tǒng)的可靠性和安全性。因此��,深入了解并有效控制母線槽的散熱與溫升具有重要意義�。
In modern power systems,Busway, as key equipment for power transmission, their stable operation is of utmost importance. However,Busway generate heat during operation. If heat dissipation and temperature rise are not properly controlled, it will seriously affect the reliability and safety of the power system. Therefore, it is of great significance to deeply understand and effectively control the heat dissipation and temperature rise ofBusway.
母線槽主要通過熱傳導(dǎo)、熱對(duì)流和熱輻射三種方式散熱����。熱傳導(dǎo)是熱量在導(dǎo)體、絕緣材料和外殼等固體物質(zhì)間傳遞�。比如在密集型母線槽里,多根緊密壓在一起的導(dǎo)電排與外殼接觸良好�����,熱量能高效地傳導(dǎo)至外殼�,進(jìn)而散發(fā)出去。熱對(duì)流依靠空氣或液體的流動(dòng)來轉(zhuǎn)移熱量��。熱輻射則是母線槽以電磁波形式向周圍空間輻射熱量���,如在封閉母線外表面噴涂淺灰色油漆可減少對(duì)可見光的吸收�,內(nèi)表面噴涂黑色油漆可加強(qiáng)內(nèi)部熱量對(duì)外殼的輻射�����。
Busway mainly dissipate heat through three ways: heat conduction, heat convection, and heat radiation. Heat conduction is the transfer of heat among solid substances such as conductors, insulating materials, and enclosures. For example, in a compact Busway, multiple conductive bars tightly pressed together have good contact with the enclosure, and heat can be efficiently conducted to the enclosure and then dissipated. Heat convection relies on the flow of air or liquid to transfer heat. Heat radiation is the process in whichBusway radiate heat to the surrounding space in the form of electromagnetic waves. For instance, spraying light gray paint on the outer surface of a closedBusway can reduce the absorption of visible light, and spraying black paint on the inner surface can enhance the radiation of internal heat to the enclosure.
母線槽的溫升是運(yùn)行溫度與環(huán)境溫度的差值。運(yùn)行時(shí)���,由于導(dǎo)體電阻的存在�,會(huì)產(chǎn)生焦耳熱使溫度升高�����。過高的溫升危害極大���,一方面會(huì)加速絕緣材料老化���,降低絕緣性能,增加漏電和短路風(fēng)險(xiǎn)��。另一方面���,溫升過高會(huì)增大導(dǎo)體電阻率,增加電能損耗��,降低電力傳輸效率�����,還會(huì)影響周圍設(shè)備正常運(yùn)行,縮短其使用壽命�����。
The temperature rise of a busway is the difference between the operating temperature and the ambient temperature. During operation, due to the existence of conductor resistance, Joule heat is generated, causing the temperature to rise. Excessive temperature rise is extremely harmful. On the one hand, it will accelerate the aging of insulating materials, reduce insulation performance, and increase the risks of electric leakage and short - circuits. On the other hand, too high a temperature rise will increase the conductor resistivity, increase power consumption, reduce power transmission efficiency, affect the normal operation of surrounding equipment, and shorten their service life.
導(dǎo)體材料的電阻率對(duì)母線槽發(fā)熱影響顯著�,銅因其電阻率低成為常用導(dǎo)體材料,含銅量越高����,導(dǎo)電性能越好,電阻越小��,發(fā)熱越少���。導(dǎo)體截面積也與溫升緊密相關(guān)��,相同條件下���,截面積越大,電流密度越小�����,發(fā)熱越低���;反之�����,若截面積過小��,電流密度過大�,溫升會(huì)急劇升高。
The resistivity of the conductor material has a significant impact on the heating ofBusway. Copper, with its low resistivity, has become a commonly used conductor material. The higher the copper content, the better the electrical conductivity, the lower the resistance, and the less heat generated. The cross - sectional area of the conductor is also closely related to the temperature rise. Under the same conditions, the larger the cross - sectional area, the smaller the current density, and the lower the heat generation. Conversely, if the cross - sectional area is too small, the current density will be too large, and the temperature rise will increase sharply.
絕緣材料需兼具良好絕緣性與一定導(dǎo)熱性�����。傳統(tǒng)PVC 套管絕緣材料導(dǎo)熱系數(shù)低����,不利于散熱;新型的環(huán)氧樹脂流化等絕緣材料�����,在保障絕緣性能的同時(shí)����,導(dǎo)熱性更好����,能有效傳遞導(dǎo)體熱量��,降低溫升����。絕緣結(jié)構(gòu)設(shè)計(jì)同樣重要����,如絕緣層厚度、與導(dǎo)體的貼合程度等�����,都會(huì)影響熱量傳導(dǎo)和散發(fā)��。
Insulating materials need to have both good insulation properties and certain thermal conductivity. Traditional PVC sleeve insulating materials have a low thermal conductivity, which is not conducive to heat dissipation. New insulating materials such as epoxy resin fluidization, while ensuring insulation performance, have better thermal conductivity and can effectively transfer the heat of the conductor and reduce the temperature rise. The design of the insulation structure is also important. Factors such as the thickness of the insulation layer and the degree of fit with the conductor will affect heat conduction and dissipation.
母線槽外殼不僅起保護(hù)作用��,對(duì)散熱也至關(guān)重要���。采用鋁合金等導(dǎo)熱性能好的材料制作外殼�����,能快速傳導(dǎo)內(nèi)部熱量��,提高散熱效率��。
The enclosure of the busway not only plays a protective role but is also crucial for heat dissipation. Using materials with good thermal conductivity such as aluminum alloy to make the enclosure can quickly conduct the internal heat and improve the heat dissipation efficiency.
母線槽的散熱與溫升控制是保障電力系統(tǒng)安全穩(wěn)定運(yùn)行的關(guān)鍵環(huán)節(jié)�。通過深入了解散熱與溫升原理及影響因素,采取優(yōu)化設(shè)計(jì)����、安裝與布局以及采用監(jiān)控與保護(hù)措施等一系列有效方法和技術(shù),可有效降低母線槽溫升���,提高散熱效率�����,確保其在各種工況下可靠運(yùn)行�����。
The control of heat dissipation and temperature rise ofBusway is a key link in ensuring the safe and stable operation of power systems. By deeply understanding the principles of heat dissipation and temperature rise and their influencing factors, and adopting a series of effective methods and technologies such as optimized design, installation and layout, as well as the use of monitoring and protection measures, the temperature rise ofBusway can be effectively reduced, the heat dissipation efficiency can be improved, and its reliable operation under various working conditions can be ensured.
