DE432167C - Process for the operation of electrical systems whose electricity-generating machines are driven by wind power - Google Patents

Description

Process for the operation of electrical systems, their electricity-generating Machines are powered by wind power. The electricity centers can can be divided into two broad groups: those of constant tension and those of variable tension Current strength and in those with constant current strength and variable voltage. The first class is by far the more important and includes almost all of them existing control centers including those with wind turbine drives. now is the Energy supplied by wind turbines is subject to very strong fluctuations, since it is proportional to the third power of the wind speed. To take full advantage of them is an extremely adaptable power generation and power transmission necessary. This leads to a third system of electrical centers, namely those with simultaneously variable voltage and amperage.

Let us consider an electricity center, for example for direct current, whereby the resistance of all consumers supplied by it (motors, electrolytic apparatus, steam boilers, etc.) should be equal to R and is initially assumed to be constant. If at a given moment the wind has a speed of V and the voltage supplied to the network by the busbars is E, then this is the power available in the control center where K is a constant and I is the strength of the main current. If Tl changes and assumes the value n V, the available power becomes the main current I. The voltage E must therefore have the value En and the original value In 3 , since otherwise not all of the available energy is used. If the fluctuation in power has caused the consumers of the network to change the resistance R in order to ensure smooth operation, then the law of change in voltage and current will be different, but it will always be advantageous to change both factors at the same time .

i -in Now the value of the voltage on the busbars of the power station, on which the power available in the network to be fed depends, depends only on the excitation of the generators, the speed of which in turn depends on the wind speed for maximum power. It would of course be possible to provide an automatic, wind-influenced regulator for each dynamo machine, if several are provided, which sets the most favorable excitation in each case, but from the point of view of the simplicity of power generation it is of the greatest importance to use dynamo machines of the same type and their to couple all field circuits one behind the other or in parallel connection. The excitation circuit then contains a single automatic regulator and is fed by a single special dynamo machine or a collector battery.

On the other hand, fluctuations in the number of periods are over a certain amount Extent not permitted in newer electrical systems, except in some special cases when it is z. B. only to the supply of electrically heated Boilers acts. It is therefore advantageous when using prime movers with variable speed, such as B. Wind turbines to choose direct current. Want If you transfer the energy over a certain distance, then the DC machines have to be connected in series to achieve high voltage power transmission. Finally, the use of direct current allows dynamo machines to run and the wind turbines on the dynamo machines also as motors going that way to be set if the torque of the wind is insufficient for starting.

Such a control center can therefore according to the following scheme are arranged: the DC generators GG with external excitation, which can be used in any Number provided and connected in series, feed the long-distance line LL. These dynamo machines are dimensioned so that they can be used within wide limits with different Voltage, amperage and power, and their excitation current comes from an independent dynamo C or a collector battery B whose voltage is controlled by means of automatic controller A so that it is simultaneously with the , Wind speed increases and decreases. The attachment naturally contains all the necessary to charge the battery B by means of the dynamo C. They can one after the other or be connected in parallel.

It is clear that under these conditions the voltage and current strength the current generated by the dynamo machines GG will fluctuate in the same sense, and that such an arrangement can only work properly if appropriately the power output by the power generators more or less power consumers be put into use at the other end of the power transmission. So it exists an essential difference compared to the existing control centers, on the contrary the electricity generation is regulated according to the needs of the consumer.

Resistors with breakers D allow current to flow into the generators To send G in to facilitate their starting; this stream - is either from the dynamo C or the battery B.

PATENT CLAIMS:

Claims (2)

by M from power source z. Procedure for the operation of electrical Systems whose power-generating machines are driven by wind power, characterized in that that by a regulator influenced by the wind, the excitation voltage of the power generator in the same sense as the wind speed automatically decreases or increases and the voltage and the amperage of the electricity-generating machines at the same time and in the same Senses change in order to ensure the best possible use of wind power, and that at the same time in accordance with the output of the respective power generators more or less electricity consumers are put into use. 2nd embodiment according to claim i, characterized in that several direct current dynamo machines are connected in series, which are excited at the same time by a separate one.