DE413544C - Method and device for regulating heat storage systems - Google Patents

Description

Method and device for regulating heat storage systems. the The invention relates to a further embodiment of the subdivided steam accumulator according to the patent 4 # 3I87. The division according to Patent 4 # 3187 has the effect that the Ladunb the memory can be brought up to high pressure in a shorter time and ready for delivery of high quality steam is available.

The present invention has the purpose of specifying a regulation by that the order of charging is followed in the correct way. The essence the invention consists in the fact that the individual departments of the low-pressure accumulator are charged one after the other in such a way that the charging of a subsequent department only takes place when 'the previous section has reached a certain temperature is brought. The individual departments are directly connected in the steam room, while they are separated in the water space up to a certain overrun height. the Separation can be achieved by installing partitions of different heights in a common Storage bodies take place or that the storage device consists of several individual bodies . exists, which are related in the vapor space and in the water space through in certain Height installed overflow pipes are connected.

Is hot water from such a subdivided storage tank to boiler feed or other consumption purposes, it should, to the printing and control process not to disturb in the system, the water extraction takes place from one department, in the correspondingly high water temperature prevails, while the replacement of the removed The water supplied to the hot water is introduced into one of the compartments are charged in the last line after the other departments have been charged.

By the method according to the invention is in the individual departments of the low-pressure storage tank temporarily water of different: e - d-rather temperature available- However, since the pressure in the steam space is the same everywhere, steam will form there down where it meets colder water, i.e. on the surface of the compartments, the still are not brought up to temperature. Because of the condensation the steam forms a dormant layer of hot water on the surface of the water, which serves as a kind of thermal protection and the further condensation of steam the vapor space essentially prevented. When feeding and forwarding the extracted water, it is therefore important to create a vortex and mixing prevent so as not to disturb the hot-breed insulation layer and thus the condensation to keep the steam low. This is achieved in that the inlet .des cold -Water m a diffuser-like widened nozzle with low velocity, takes place without eddies, as well as further; by the fact that the overflow is below the water level he follows. But not to get the cold water without any preheating by the departments on the other hand, a certain overflow height must be maintained, and it is best to keep the overflow in the direction of the water flow to place a little higher in the following section than in the previous one.

In the drawing, such a storage system is shown, namely Fig. i shows a system with a storage body which is divided into different departments is divided, Fig. z a system with several individual storage bodies.

The storage tank is charged from the freshd = pfleitung 5, from where the live steam first to the charging nozzles 6 of the department 7 of the store q. goes. As soon as compartment 7 has almost reached its maximum temperature, the charge nozzle group becomes 8 of the next department g opens automatically and this department g to approx Brought maximum temperature, whereupon the charging nozzle group io is turned on and department i i recharges and so on until all existing departments have been recharged are. The adjustment of the nozzles is advantageously done in that the steam inlet valves to the nozzles through a thermostat or a. similar establishment affects to open the steam inlet.

According to Figs. I and -2, the thermostats 12 are arranged at the bottom of each of the compartments 7, 9, etc. and are connected to the steam inlet valves 13 by transmission lines 14.

Your hot water storage tank can be taken from line 16. The water removed is replaced by line 15. The storage steam is removed from the steam dome through line 17, 18 and ig are diffuser-like Extensions of the inflow line 15 or the extraction line 16, the purpose of which is is to create a vortex and mix the inflowing water if possible avoid.

The partition walls 2o are of different heights and are dimensioned so that the cold water below the surface in a calm stream from one compartment to another can flow.

In Fig. Z is the subdivision into several individual storage bodies carried out. The procedure is the same as in Fig. I. So that the water the Flows through the body in countercurrent, connecting lines are provided in the water space 21, which lie at different heights, so that the cooler water always passes through the warm line 21 pushes.

The various bodies are connected through connecting lines for steam extraction connected to one another in the steam space 22.

Claims (3)

PATENT CLAIMS: i. Method and device for regulating heat storage systems according to Patent ¢ 13i87, characterized in that the individual departments of the low-pressure accumulator successively charged in such a way that the charging of a subsequent division only takes place when the previous section has reached a certain temperature is brought. 2. A method for operating steam accumulators according to claim i, which also tear water is removed, characterized in that the replacement of the removed Water through fresh water and the flow of water in the storage tank in countercurrent to Loading order is made. 3. Procedure for the operation of steam accumulators according to Claim i and ::, 'characterized in that the supply of fresh water in the first division in the deepest part of the water space and'-the transition to the following departments at different heights, but below the surface of the water he follows. q .. memory for performing the method according to claim i to 3, 'thereby characterized in that the water supply and extraction nozzle in order to avoid a Vortex are expanded like a diffuser.