DE507131C - Steam power plant with several steam networks of different back pressure - Google Patents

Description

Steam power plant with several steam networks of different back pressure The invention relates to a steam power plant with several engines working in parallel, from which several networks of different counter pressure are supplied. In such systems it is known to compensate for steam generation during fluctuating operation, the power requirement and the heat requirement of the various counter-pressure networks in the way to create that with excessive energy requirements the machines with low back pressure more load is assigned and a steam accumulator operating with a pressure drop den takes over all compensation. Here, however, there is a flow especially at times of high power requirement a significant part of the available heat goes to the condensation part of a Engine to and is accordingly uselessly destroyed in the cooling water of the condenser. In the known arrangements, the steam accumulator is not able to temporarily store it To avoid loss, it just creates a balance between the amount of steam and steam consumption.

According to the present invention, a possibility is created to also fluctuations in power generation in addition to fluctuations in steam generation and consumption by memory, without a more or less large Part of the heat must be destroyed in the condenser during power demand peaks. That The essence of the invention is that heat storage in several counter pressure networks are arranged, and that the balance between steam generation, power requirement and Heating steam demand takes place in that the storage in the networks of lower pressure by the machines assigned to them Excess steam can be charged while the storage in the networks has higher back pressure give off the heating steam, which as a result of their upstream machines Less allocated steam quantities are missing from the required quantity of these networks.

It is advantageous to arrange pure steam accumulators in the networks of higher pressure, which are charged by Daiupfzufuhr and discharged by steam extraction, in contrast, in the networks of lower pressure, hot water tanks that only store the hot water to be preheated by the exhaust steam or counterpressure steam for the times of hot water consumption; This keeps the entire storage volume low, since with hot water storage tanks, relatively lower temperatures make it possible to achieve greater storage capacity, while a certain pressure gradient must be available for steam development for steam storage. In addition, the hot water storage tank can be dimensioned for low pressure and accordingly large dimensions for the coverage of hours or even daily fluctuations. The mode of operation of a system according to the invention, in which the steam storage tank and hot water storage tank are used together, will be shown in the following using an example, namely Fig. I shows a "scheme of such a system, Fig.2 a load diagram in which: DE the steam generation, DF the demand for tap steam of higher pressure (5 atm.), WF the warm water and hot water demand as well as the demand for steam at low pressure (2 atm.), KV the own power demand, KA the delivery of excess power to the Overland network, DSp the steam storage contents, WSp the maintenance water storage contents.

The steam generation system i supplies through the steam line 2 the different those engines 3, 4 and 5 connected in parallel the highest pressure as counter pressure, for example 5 atm. A steam accumulator is attached to the network 7 and heating steam consumer 8 connected.

The machine q. works on the network of the next print, for example 2 atm. A hot water heater and storage tank is connected to line 9, the hot water through line i i to consumer 12, for example paint tubs, gives. These are also supplied with steam from line 13.

The machine 5 works through the line 15 into the condenser 16, which is supplied with fresh water from the line 1.4. The cooling water and, in the case of mixed condensation, as in the present case, also the condensate, is conveyed by the pump 17 into the hot water tank i 8, from which it can flow through the line i9 to hot water consumers or to the recooling system.

The operation of the system is roughly as follows: The boiler system is appropriately fired in the morning and then the machine is put into operation. First of all, the condensation machine in particular will work and, in doing so, charge the lower temperature store, that is, the hot water store 18. The machine also covers the morning light peak of the connected electrical network. With the start of the factory working hours, the steam required for the factory is then taken from the counter-pressure machines or the higher pressure taps and fed to the factory. At the same time , the force load on the condensation machine is reduced. The hot water consumers get their consumer water from the tanks that are charged in the morning or in the evening. At the end of the operation, neither steam nor power is needed in the operation itself. B. further power is needed for light. This is covered by the condensation machine while charging the hot water storage tank.

In this way, the well-known equalization scheme, with sufficient Amount of steam as much load as possible on the counterpressure machines and as little as possible on the Condensation machines and more load in the case of excessive energy requirements and lack of steam to assign to the machines with lower back pressure, held and yet avoided that large amounts of heat are lost in the condensers.

Claims (2)

PATENT CLAIMS: i. Steam power plant with several connected in parallel Traction machines that work on networks of different counter pressure, and where the balance -between steam generation, power requirement and heating steam requirement thereby takes place that the machines with low counter pressure a larger part of the load is assigned, characterized in that in at least two different counter-pressure networks each a heat storage (7, io) is arranged, and that in the case of excessive energy requirements the memory (to) arranged in the networks of lower pressure (13) the excess steam assigned to their upstream engine (.I) is loaded while the memory or memories (7) in the networks of higher pressure (6) the missing due to reduced steam allocation to their associated engine (3) Deliver back pressure steam quantities. 2. Steam power plant according to claim i, characterized in that that in the networks of higher pressure to be charged by steam supply and by steam extraction Steam accumulators to be discharged, but accumulators in the networks with lower pressure are arranged for hot water to be preheated by exhaust steam.