DE3844933C2 - Suspended electrical power carrying cable - Google Patents

Abstract

A suspended electrical power carrying cable is operated under safe conditions with considerable variations in environmental state. Overhead cable normal surfaces can exhibit upto 65 degrees Celsius over load temperature differences resulting in a reduced mechanical strength. The surface of the cable is coated with a matt black finish that can be sprayed on. The emission coefficient of the surface is in excess of 60% and the continuous current load rating remains within limits.

Description

The invention relates to a method for setting up and Operation of a power transmission line with a plurality of overhead line cables in the form of aluminum-steel cables with cable cross sections according to DIN 48 204, edition April 1967 (hereinafter referred to as DIN 48 204) and with it specified guide values for the continuous current carrying capacity. The guide values only apply to certain conditions.

The specified guideline values for continuous current carrying capacity in network operation cannot be maintained without restriction, unless considerable risks are accepted. This is due to the fact that the continuous current leads to temperature increases in the overhead line cables, but the guide values are limited according to a permissible cable temperature. The permissible rope temperature depends on the alloy and the structure of the rope. In contrast, the cable temperature that arises under continuous current depends on the environmental influences of the air temperature, solar radiation, wind speed and the emission coefficient of the cables. DIN 48 204 specifies a wind speed of 0.6 m / sec from the above parameters. in the sense of a minimum value and an ambient temperature of 35 ° C in the sense of a maximum value. The result is that z. B. in strong sunlight and no wind, the guideline values of the continuous current carrying capacity cannot be used when the network is operated as intended, which considerably affects the disposition options of network operation. The related doctrine is further explained:
In high-voltage overhead line construction, aluminum-steel ropes and, for special applications, Aldrey steel ropes or pure Aldrey ropes are used. The material Aldrey is a special aluminum alloy with high strength, which has found its way into the corresponding standards. The overhead line ropes are supplied by the manufacturers as bare ropes and are also installed as bare ropes when a high-voltage overhead line is set up. In DIN 48 204, the individual conductor cross-sections are assigned fixed continuous current ratings for the first time. With a few exceptions, this still applies today and is based on Alfred Web's "Continuous current carrying capacity of overhead lines made of copper, aluminum and Aldrey manufactured according to DIN 48 201" (Elektrizitätswirtschaft, 1963, Issue 23, pp. 862 to 871). The standard values for continuous current carrying capacity specified in DIN 48 204 are subject to restrictions. It is expressly emphasized in DIN 48 204 that the guide values up to 60 Hz are only valid at a wind speed of 0.6 m / sec. and exposure to the sun for an ambient temperature of 35 ° C and a final rope temperature of 80 ° C. As already mentioned, the guideline values should be reduced by 30% on average when the air is still. In all cases, the temperature of the overhead line cable in continuous operation must not exceed 80 ° C. Special regulations apply in the event of a short circuit.

It has long been known (electri zitätswirtschaft l.c., p. 865) that the surfaces  Condition of bare overhead line cables during the course of time due to oxidation and pollution can change higher emission coefficients, the he values are compared with a coat of paint however, these changes in emission coefficient are each according to atmospheric conditions, random and uncontrolled. Consequences for the establishment and the Operation of high-voltage overhead lines are not been drawn.

In recent years, a. in the Federal Republic Germany overhead line cables came on the market for that the specified standards do not apply. This free Line cables consist of wires of a special, tempe resistant aluminum alloy and a steel core. The mechanical strength values are up to one free line temperature of 150 ° C stable. At higher temperatures However, there are significant problems with fittings. The mecha niche strength drops due to irreversible changes in the crystalline structure of the wires in considerable Dimensions remain. The result is that Frei cable ropes from today's usual and specified factory substances in normal operational circuits not longer than time with those specified in DIN 48 204 or by the manufacturer given currents may be charged if otherwise raised risks would arise.

The invention is based on the technical problem High-voltage power line to set up so that the in DIN 48 204 given standard values for continuous current carrying capacity  in network operation without disturbing restrictions due to Um conditions can be used risk-free.

The solution to this technical problem is given by a method of setting up and operating a high power line with a plurality of overhead lines ropes in the form of aluminum-steel ropes with cables cross-sections according to DIN 48 204 and with specified therein Guide values for the continuous current carrying capacity when changing current up to 60 Hz and at a wind speed of 0.6 m / sec. and sun exposure for an ambient exit temperature of 35 ° C and a final rope temperature of 80 ° C, with the establishment of the high voltage free Line overhead lines are used in which only the exposed surfaces with a coating with a commercially available, temperature-resistant matt lacquer equipped with a black surface and therefore with have an emission coefficient of greater than 0.90, and wherein in the operation of the high-voltage overhead line given guideline values for continuous current carrying capacity not be reduced when the air is still.

The invention achieves considerable operational advantages because the disturbances described at the beginning for mains operation There are no restrictions. The network can on average transfer higher powers. The control and regulation network operation can be significantly simplified. In addition, the establishment of the high voltage is free lines for the inventive method little agile. It can be done in the usual way and with usual ferti  bare overhead line cables manufactured in Form of aluminum steel ropes that are used before just coating the free surfaces with have experienced a suitable dye. Suitable color fabrics are widely known. Those skilled in the art will choose that turned on anyway for recording high temperatures are aimed.

Ready-to-install overhead line cables in the form of aluminum nium steel ropes, where the emission coefficient he has been increased are known (GB 1 146 710). The Emis tion coefficient is below 0.90 and becomes 0.81 or stated about 0.8. There are also ready-to-install free eggs cable ropes with an emission coefficient greater than 0.90, known, namely in the form of aluminum ropes that none Have steel core (GB 1 146 710, Examples I, IV and V). Here the aluminum ropes are galvanized with oxalic acid treated technically and this turns a black top surface created. The emission coefficient is below 0.90, in some cases considerably below 0.90. According to Examples II and III are the aluminum ropes that have no steel core on them have been treated with sulfuric acid. Here becomes an emission coefficient of over 0.90 to 0.97 reached. Research has shown that Alumi nium steel ropes to increase the emission coefficient not be treated accordingly with sulfuric acid can because of inadmissible corrosion on the steel core appearances on the surface, especially the Impact vibration fatigue strength. You could the individual aluminum wires through a galvanotechnical  Treatment as described in the cited examples of GB-PS 1 146 710 is described on its entire scope with provided with a black surface, which is an emission has coefficients of over 0.90 to be used thereafter pretreated aluminum wires the aluminum steel ropes to beat. However, that would be very expensive because i separate operations first the aluminum wires their circumference with the black surface would have to be followed and then the stranding. The known manufacturing facilities for high-voltage free egg cable ropes could therefore not easily be used for the Production of aluminum-steel ropes can be used. From the measures known so far, a lesson on technical action that the Randbe described above conditions for the operation of the power transmission line overcomes not deriving.

Basically, it is known (DD 47 214), the surface treat electrical conductors so that they have a high, in emission radiation lying close to the black body having. The surface can be roughened or be colored. In particular, with known technological processes such as spraying or dipping Layer can be applied to the surface. These Known measures assume that the Energy transport inevitably generates heat loss and in closed rooms and cable ducts consequently high Temperatures can occur. The emerging high Air temperature forces to reduce the load on the Head, because the functional safety of an energy transport  in closed rooms or cable ducts only in one predetermined temperature interval over a reasonable time is secured. The technical problems when setting up and when operating high-voltage overhead lines with a A large number of overhead lines are standing by the front described measures have not been influenced.

The invention and the advantages achieved are explained below using an exemplary embodiment:
First, conventional overhead line cables with a bare surface were examined under the real conditions to which an overhead line cable is subject to atmospheric influences. Over-temperatures up to 65 ° C were measured under continuous current according to DIN 48 204. Due to the excessive temperatures, the strength of the usual overhead line cables can drop to 79% and further. Depending on the alloy, permanent strength impairments occur, which pose a risk.

After that, the Overhead ropes of the same provenance and construction examined, but with a black surface were prepared. The blackening was made with commercially available temperature-resistant matt lacquer. The matt lacquer was applied from spray cans. The emission coefficient the overhead line cables treated in this way were 0.98. The Ver Search showed that the blackening of the surface of the Overhead cables even at wind speeds below 0.6 m / sec. that caused by the permissible continuous current Rope temperature could be reduced significantly. The Ab reduction was always so great that the permissible rope temperature instruments have not been exceeded. That means that Guideline values for continuous current specified in DIN 48 204 load capacity or the guide values specified by the manufacturer for continuous current carrying capacity without any restrictions risk-free due to environmental conditions in network operation can be held. It is understood that the radiation of heat emanating from one with a black surface equipped overhead line rope the more intense the higher the temperature that arises, because the radiation goes with the fourth power of temperature.

The experiments show that the invention is considerable Improvement in network operation is achieved the risk-free without restrictions due to environmental conditions conditions is possible. The invention also achieves this further considerable advantages: there is an advantage with the design of a high-voltage overhead line, if this is set up according to the invention. For the  Determination of the necessary heights of the masts is the increase in sag of the overhead line cables with growing rope temperature is an important design criterion terium. Can the one to be used according to the regulations Design temperature can be set lower, so the mast heights are reduced accordingly, what in the frame the invention can be exploited to a considerable extent. From be of particular importance is the teaching of the invention in the Re-ropeing of existing high-voltage lines if to Increasing the transmission capacity of the overhead line cables with higher currents and thus with higher temperatures to be operated. As a rule, because of the then greater sag of the overhead line cables Larger number of masts through intermediate shots be increased or re-created. If you follow the Teaching of the invention, the number of these masts can be reduce significantly.

It is understood that the heat radiation also affects the ohmic losses in a high-voltage overhead line Has. The ohmic resistance rises above temperature coefficients the overhead line cables were known to be linear with the Rope temperature. One lowers at given currents Blackening the surface of the overhead line cables their tempe rature, the losses decrease linearly accordingly. At extensive calm in which the heat radiation ver like the ropes for the heat balance and thus for the Temperature of the overhead line cables is dominant occurs this effect is most evident. The decrease in Power loss can be 8% and even 28% and more  depending on the set rope temperature, the fiction is complied with if the network operation with the dir values of the continuous current load. To that extent is counter the invention also a method for reducing the Ohmic losses of the overhead lines of a high voltage power line in normal network operation.

Claims (1)

Procedure for setting up and operating a high-voltage overhead line with a plurality of overhead line cables in the form of aluminum-steel cables with cable cross sections according to DIN 48 204, April 1967 edition, as well as with guideline values for continuous current load with alternating current up to 60 Hz as well as at a wind speed of 0.6 m / sec. and exposure to the sun for an ambient temperature of 35 ° C and a final rope temperature of 80 ° C,
whereby overhead line cables are used in the installation of the high-voltage overhead line, in which only the exposed surfaces are provided with a black surface by coating with a commercially available, temperature-resistant matt lacquer and are therefore provided with an emission coefficient of greater than 0.90, and
whereby during operation of the high-voltage overhead line, the specified guide values for continuous current carrying capacity are not reduced even when the air is still.