SU1849A1 - High pressure steam installation - Google Patents

Description

The present invention aims to eliminate in steam installations subject to large fluctuations in high-pressure steam flow, the effects of fluctuations on steam boilers with simultaneous, possibly more economically perfect use of high-pressure steam remaining periodically in excess from the high-pressure machine to cover additional needs either high steam or low pressure steam. According to the present invention, to receive an excess amount of high pressure steam and to cover the additional demand for both high and low pressure steam, a high pressure steam accumulator is used, consisting of a tank unheated by a boiler furnace, the steam and water spaces of which they are connected respectively with the steam and the water now the space of the steam boiler. In the present invention, the designated high-pressure steam accumulator is supplied with a pipeline with a high-pressure exhaust independent of the boiler and works directly on the high-pressure receivers (high-pressure turbines), thus covering the additional need

these receivers in the high-pressure steam, but at the same time allowing the economical use of excess boiler steam to cover the demand for low-pressure steam; This is due to the fact that the high-pressure steam taken from this battery (obtained from an excess of boiler steam) is supplied to any stage of a turbine and then is removed in a well-known way from an arbitrary lower stage of the same turbine.

FIG. Figures 1-4 of the schematic drawing depict four forms of carrying out the present invention.

The steam plant shown in FIG. 1, incorporates boiler K of any design and tank V, unheated by the furnace of the boiler. When shown in FIG. 1 of an exemplary form of operation, the steam boiler K and the tank V each consist of a lower and an upper boiler, a different one, respectively, a k b, respective water n1 1e, and steam spaces are interconnected by pipes c, e, each of which includes an actuated by hand or automatically, the regulating or locking body d and, respectively, /. Through the g pipe, three-way valve k and pipelines h, i, the feed water is supplied either to the boiler K and to the tank V at the same time, or, if necessary, only to one of these receivers. Tank V is adjusted for steam extraction as well as boiler K (steam generator); Pipelines p, q take steam to a superheater or steam dryer r, /, from which pipelines r, 5 go to the place of consumption of high-pressure steam, for example, to a steam turbine.

Due to the connecting pipes c, e, in the boiler and in the tank V, the same or almost the same pressure is maintained and a vigorous exchange of heat is achieved between the two devices; this latter can be enhanced by the fact that the water spaces of the upper boilers o, b are also interconnected. During normal operation, with which the performance of the boiler (steam generator) K is conformed, the steam enters the turbine T only from boiler K. via pipelines / 7, S. In the case of normal operation of the boiler, the need for power decreases, and consequently, a high pressure steam, the high pressure residues remaining in excess, flow from the boiler K through the pipeline without loss of pressure into the reservoir U, together with the water of the latter, the energy contained in it. If the need for high pressure steam exceeds what boiler K can give by itself without overloading, then this excess need for people is covered by a secondary evaporation of water from reservoir V. Reservoir V, in which in some time it reaches almost completely the water temperature the boiler thus acts as a high-pressure steam accumulator and serves to cover the additional demand for the said pair. The purpose of the high-pressure accumulator is that reservoir V can also be fulfilled if the water contained in it reaches the temperature of the water in the boiler, because, by introducing fresh water into reservoir V, the heat of the steam entering it is spent on heating this fresh water to boiler temperature. With such work

the device can be closed the valve d, to maintain in the boiler K the most advantageous height of water, in the tank (accumulator) V - a somewhat higher level of the latter.

If, in case of exceeding the normal demand for high pressure steam, the tank (battery) V starts to work as a steam generator, then the water temperature decreases in tank V more quickly than in boiler D, because during this period of time no heat is supplied to the battery. and the heat required for evaporation must be borrowed from the water of the reservoir (accumulator) V. Due to this drop in water temperature in the reservoir V, this latter is particularly suitable for receiving and accumulating excess steam pressure resulting during the subsequent period is reduced against normal conditions of demand for steam. Due to this, fluctuations in the demand of high-pressure steam have no effect on the temperature of the water in the boiler, and this latter can immediately produce high-pressure steam of normal temperature and degree of humidity.

Thus, during the period of demand for steam exceeding the average, tank V operates as a second independent steam generator; the adaptation of the entire steam generator installation to the increased need for steam occurs, therefore, instantaneously, as if the second steam boiler were to be adventurous. The fact that the tank (battery) V can produce only saturated or wet steam is taken into account and is taken into account by the fact that a superheater t is turned on in the discharge pipe q.

Due to the use of reservoir V, the need for a low-pressure steam, especially the additional need for it, can be covered in an eco-friendly manner, without causing it in special low-pressure accumulators. According to the proposed invention, excess boiler steam accumulates in the reservoir (high pressure accumulator) V and is supplied to the places where the low pressure steam is consumed

by means of an intermediate turbine T. In this case, both the supply of high pressure steam and, in particular, its discharge can be carried out, as indicated by the arrows x w y, in arbitrary turbine stages. Thus, the high-pressure steam is adjusted to the reduced pressure required in each given case by doing some work.

The fixture g, k, h, i (Fig. 1), which serves to supply the feed water of the steam boiler K and the tank V independently of each other, acts, depending on the operating conditions, in the following way. With full equilibrium and between boiler capacity K and steam consumption, fresh water is supplied only to the boiler, and the same happens when tank V has to work vigorously as a steam generator; on the contrary, depending on the more or less vigorous operation of tank V as an accumulator, fresh water is supplied only to tank V or also to boiler K; in the nerve case, feed water flows through tank V to the boiler.

When depicted in FIG. 2, the embodiment of the present invention.

several boilers K are supplied with one single reservoir V; in fig. 3 shows an embodiment in which several boilers K are combined with several tanks V. In both cases, tanks V and boilers K are interconnected in the same way as in FIG. 1, and with the help of valves included in the connecting pipes, various mutual reconnections can be made. In the embodiment shown in FIG. 4, tank K, not heated by a firebox, is located under boiler K.

SUBJECT OF THE PATENT.

A high pressure steam plant for highly variable steam consumption, consisting of a boiler (s) and an unheated flue gas under a boiler pressure, containing a significant amount of water, a tank (s), equipped with an independent boiler discharge directly to the working high pressure steam at the point of consumption, characterized by the use of pipeline C with a shut-off or regulating body d connecting the water spaces of the boiler and reservoir.

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