【正文】 水平接地長網(wǎng)，和變電所共用一個接地裝置，查得扁鋼接地電阻為1Ω時，40ⅹ4扁鋼約為200米長，在室內(nèi)外均鋪設(shè)人工接地網(wǎng)，采用長孔網(wǎng)布置，且將邊角作成圓弧狀，以減弱該處場強。（2）接地電阻計算 ①土壤電阻率 地網(wǎng)總面積為接地網(wǎng)總長度選用40ⅹ4的鍍鋅扁鋼作為接地體，②接地體的實際接地電阻 ,滿足要求。（2）根據(jù)變電所主接線設(shè)計原則，對變電所的主接線進行了設(shè)計：高壓35kV側(cè)采用全橋接法,10kV的母線采用單母分段接線形式。（4）按安裝地點、運行環(huán)境和使用要求對電氣設(shè)備的規(guī)格型號進行了選擇，并對它們進行動穩(wěn)定和熱穩(wěn)定等方面的校驗。采用了在線路上安裝閥型避雷器進行防雷保護，并在變電所四周安裝了避雷針進行保護。在畢業(yè)設(shè)計期間，她給予了我極大的指導(dǎo)和幫助，她那認真負責的工作作風、誨人不倦的精神風范、嚴謹求實的治學態(tài)度給了我很大的鼓舞和激勵。在本論文完成之際，特向曹老師表示我最衷心的感謝和祝福。正是得益于他們的辛勤培養(yǎng)，我才有能力完成此次畢業(yè)設(shè)計，在此特向所有恩師表示我最崇高的敬意和最誠摯的謝意！參考文獻[1] [M]..[2] [M].[3]顧永輝. .[M].[4].[M].[5]佟熙田, [M]. [6]煤礦井下供電的三大保護細則 [M]. [7]煤礦安全規(guī)程 [M]. [8][M].合肥:安徽科學出版社,1995[9][M].北京:機械工業(yè)出版社,2009[10] 蘇文成. ：機械工業(yè)出版社，1990[11] 段建元. ：機械工業(yè)出版社，1982[12] 劉榮玉. ：中國礦業(yè)大學出版社，1989 Faults on Power First, introduction an ideal electrical power system is by the sole constant frequency and the stipulation peaktopeak value regulated voltage power supply. But in fact, as a result of the recent years along with science39。s unceasing development, the high efficiency traded the class equipment and the modulator use, high in the electrical power system presses the nonlinear element which the direct current transmission the application, the massive misalignment load39。s voltage waveform distortion to be getting more and more serious, has caused the very big harm to the electrical power system, for example: Causes in the power supply system the part to lose increases, reduces current collector39。s security economy movement. Each year new design of power equipment bring about increased reliability of operation. Nevertheless, equipment failures and interference by outside sources occasionally result in faults on electric power systems. On the occurrence of a fault , current an voltage conditions bee abnormal, the delivery of power from the generating station to the loads may be unsatisfactory over a considerable area, and if the faulted equipment is not promptly disconnected from the remainder of the system, damage may result to other pieces of operating equipment.A faulty is the unintentional or intentional connecting together of two or more conductors which ordinarily operate with a difference of potential between them. The connection between the conductors may be by physical metallic contact or it may be through an arc. At the fault, the voltage between the two parts is reduced to zero in the case of metaltometal contacts, or to a very low value in case the connection is through an arc. Currents of abnormally high magnitude flow through the network to the point of fault. These shortcircuit currents will usually be much greater than the designed thermal ability of the condition in the lines or machines feeding the fault . The resultant rise in temperature may cause damage by the annealing of conductors and by the charring of insulation. In the period during which the fault is permitted to exist, the voltage on the system in the near vicinity of the fault will be so low that utilization equipment will be inoperative. It is apparent that the late conditions that exist during a fault, and provide equipment properly adjusted to open the switches necessary to disconnect the faulted equipment from the remanding of the system. Ordinarily it is desirable that no other switches on the system are opened, as such behavior would result in unnecessary modification the system circuits. A distinction must be made between and an overload. An overload implies only that loads greater than the designed values have been imposed on system. Under such a circumstance the voltage at the overload point may be low, but not zero. This undervoltage condition may extend for some distance beyond the overload point into the remainder of the system. The current in the overload equipment are high and may exceed the thermal design limits. Nevertheless, such currents are substantially lower than in the case of a fault. Service frequently may be maintained, but at belowstandard voltage.Overloads are rather mon occurrences in homes. For example, a housewife might plug five waffle irons into the kitchen circuit during a neighborhood part. Such an overload, if permitted to continue, would cause heating of the wires from the power center and might eventually start a fire. To prevent such trouble, residential circuits are protected by fuses or circuit breakers which open quickly when currents above specified values persist. Distribution transformers are sometimes overloads as customers install more and more appliances. The continuous monitoring of distribution circuits is necessary to be certain that transformers sizes are increased as load grows.Faults of many types and causes may appear on electric power systems. Many of us in our homes have seen frayed lamp cords which permitted the two conductors of the cord to e in contact with each other. When this occurs, there is a resulting flash, and if breaker or fuse equipment functions properly, the circuit is opened.Overhead lines, for the most part, are constructed of bare conductors. There are sometimes accidentally brought together by action of wind, sleets, trees, cranes, airplanes, or damage to supporting structures. Overvoltages due to lighting or switching nay cause flashover of supporting or from conductor to conductor. Contamination on insulators sometimes results in flashover even during normal voltage conditions.The conductors of underground cables are separated from each and from ground by solid insulation, which nay be oilimpregnated paper or a plastic such polyethylene. These materials undergo some deterioration with age, particularly if overloads on the cables have resulted in their operation at elevated temperature. Any small void present in the body of the insulating material will results in ionization of the gas contained therein, the products of which react unfavorably with the insulation. Deterioration of the insulation may re