NL8203162A - DEVICE FOR PREHEATING FOOD WATER AT A POWER STATION. - Google Patents

Description

N / 31.021-Jb / ak v * * -

Device for preheating feed water at a power station.

The invention relates to a device for preheating feed water at a power center with a boiler installation for the power station and a steam turbine installation, wherein the steam turbine installation 5 is equipped with a number of n draw-off points for draw-off steam with the steam pressure pn and the steam saturation temperature Tn (Pv.4-? T <T ,,) and the boiler installation has a feed water preheater for each draw-off point, which comprises a draw-off steam supply for the draw-off steam p, T of the associated 10 n-th draw-off point, while also between an nth and a (n + l) th feed water preheater an additional feed water preheater is provided / to which a flow line with pump branched off from the draw-off supply feed to the n-th feed water preheater, drain steam of the 15 n- the tapping site can be supplied with an increased steam pressure pm relative to pn and with an increased temperature Tm (at Pm <pn + 1; Tm <Tn + 1).

Steam turbine installations, where a number of draw-off points for draw-off steam with the steam pressure pn and the steam-saturation temperature Tn are applied and wherein the boiler plant for the power plant for each draw-off location comprises a feed water preheater, which in the manner described has a draw-off steam supply, are so-called regenerative feed water preheating at power plants. It is known that regenerative preheating at steam power plants results in an improvement in efficiency. It is also known that the efficiency increases with an increasing number of feed water preheaters and theoretically a maximum value is reached with an infinite number of feed water preheaters. However, for this thermodynamic effect to be achieved, a corresponding number of tapping locations for the tapping steam is required. For technological and economic reasons, the number of feedwater pre-heaters is in practice limited to four to eleven.

35 For technological reasons, it is also very expensive and often even impossible to improve the number of tapping places afterwards at an 8203162 installation.

An apparatus of the type mentioned in the preamble is known from US patent 3,238,729. In this known device, only Sn additional feed-water preheater with a pump is used. This pump is a jet pump in the form of an ejector, which jet pump is operated with steam from the (n + 1) -th tapping point.

In the known device according to the preamble, the preheating of the feed water in the different feed water preheaters is carried out in two sections.

In the first section, you may. a large pressure loss occurs, while the second section shows a small pressure loss. Both sections are supplied with steam from the same tap point. The second section reduces the losses of the first section, as it were. A condition for this is that the transferred heat quantity in the first section is very large compared to that of the second section. An additional pressure loss in the first section can be taken for granted, as the second section recovers this pressure loss. The additional pressure loss can for instance be utilized to densify steam from a lower tapping point and subsequently condense it, which is done with the aid of the ejector. The heating area in the pressure-loss section located at the outlet of the ejector is large and amounts to about 75 to 85% of the total heating area between the two, ie the nth and the fa + l) -th, draining places. The residual minor warm-up in the second section, which therefore covers 25 to 15% of the entire warm-up area, therefore allows economical sizing of the feed water preheater constituting this second section. Since this section recovers the pressure losses of the first section, this section can be oversized, which has economic advantages for both the preheater of the second section and that of the first section. In this way, the temperature (Tm - Tn) of the device is between (Tn + 1 ”TR). 0.75 to (Tn + 1 - Tn). 0.85. The associated pressures have a corresponding value. The operation achieved by an increase in the number of draw-off points with associated feed water preheaters according to the introductory explanation, i.e. an improvement in the thermal efficiency, cannot be achieved with the known device.

The object of the present invention is to further develop a device of the type mentioned in the preamble, such that the thermodynamic effect of an increase in the number of draw-off points and therefore of the feed water pre-heaters and pre-heat steps is achieved, without the number of draw-off places needs to be increased. For this purpose, the device according to the invention is characterized in that between a n-th and a (n + 1) -th feed water preheater a number of (i> 1) additional feed water pre-heaters which are arranged with respect to the feed water preheating units are connected in series, in which these additional feed water preheaters are all supplied with draw-off steam from the nth draw-off point by means of pumps designed as mechanical compactors, while the mechanical compactors provide a compression of the partial streams supplied to them at a temperature greater than T 20 with steps of approximately (T +1 - Tn) / (j + 1), at corresponding pressures are dimensioned.

Preferably, mechanical compactors are used, which are connected in series.

This can take place in such a way that after each compressor a partial flow is drawn for supplying the additional feed water preheater connected thereafter. In order to save the mechanical compactors, it is recommended that after the feed water preheaters and the additional feed water preheaters, a softener 30 is connected on the water side, so that the tap steam with the steam pressure pn. and the steam saturation temperature Tn is supplied, while a partial flow of the annealed steam can be supplied to the mechanical compactors.

The invention is based on the insight that, with the device according to the invention, a thermodynamic gain, which is a multiple of the number, can surprisingly be achieved with a mechanical densifier or compressor. gains achievable in the context of known measures, this gain increasing by j, i.e. by the number of additional feed water preheaters between a draw-off point n and a draw-off point n + 1. For example, if j is 2, the invention teaches that the different heating ranges are about 1/3 of the total temperature difference. Accordingly, the draw-off amount decreases with the temperature Tn + 1 by 2/3. This saved 2/3 of the original steam amount Tn + 1 can expand in the turbine from Tn + 1 to Tn and therefore provide additional work. This corresponds to an improvement of more than threefold over the gains achievable in the known device, as accurate studies have shown. An improvement to twice that is achieved even if, in the known embodiment, the ejector or the jet pump were replaced by a mechanical densifier in the form of a compressor, which, incidentally, regards the device according to the invention. -should be bigger and designed for higher power.

It is known in principle from Swiss patent 547,944 to use mechanical densifiers in a preheater chain, namely for densifying steam with low voltage and subsequently supplying a high-pressure preheater. This has so far not contributed to solving the problem of the present invention.

The invention will be explained below with reference to the drawing, which shows a diagram of an exemplary embodiment of the device according to the invention.

The device shown in the drawing serves for preheating feed water at a power center with a boiler installation for this power station and a jamming turbine installation.

In principle, the boiler plant for the power plant and the steam turbine installation have the usual structure and are therefore not shown in the drawing. The steam turbine installation has a number of draw-off places for draw-off steam with a steam pressure pn and a steam saturation temperature T. The drawn • steam draw-offs 1 correspond to this.

The boiler plant for the power station has a feed water preheater 2 for each draw-off point, which is dimensioned for the draw-off steam ρβ, TR from the corresponding draw-off point. A further (n + 1) feed water preheater 2 is connected to this. Furthermore, between the n-th and the 5 (n + 1) -th feed water preheater 2, two additional feed water preheaters 3 are arranged in the exemplary embodiment. A draw-off steam supply 1 leading to the n-th feed water preheater has a branch line 5 equipped with at least one mechanical densifier 4, this diverter 4 dividing this draw-off steam partial flow at the steam pressure Pm and the steam saturation temperature Tm is compactable. Furthermore, the partial flow line 5 on its part has a branch line 6 with a further compactor 7, which leads to the second additional feed water preheater 3. The compactors 5,6 are adapted to densify the partial flow supplied thereto at about 1/3 of the existing temperature range. The draw-off steam with the steam pressure Pn and the steam saturation temperature Tn is passed over a softener 8 which is subsequently switched. The feed water preheaters 2,3 can be designed as surface devices or as mixing preheaters.

The pumps required for mixing are not shown. In the manner described, it is possible to work multiple times on different steps n, n + 1.

Within the scope of the invention, the specification 25 ^ Tn + 1 ~ Tn) / (j + 1) for the temperature steps corresponds to the theoretically ideal case. This is not achievable due to the inevitable ir-reversibilities. If, in connection with this, a dimensionless quantity r, as it were to be understood as an efficiency, is defined, which in practice lies in the range of 0.5 to 0.9, then for the temperature steps the expression r ^ (Tn + 1 - Tn) / (j + 1) - is obtained and the mechanical compactors actually operate at this value.

8203162

Claims (3)

1. Device for preheating feed water at a power station with a boiler installation for the power station and a steam turbine installation, wherein the steam turbine installation with a number of n draw-off points for 5 draw-off steam is carried out with the steam pressure pn and the steam saturation temperature Tn (pn <pn + 1 ; τη ^ "Τη + 1 ^ and boiler installation has a feed water preheater for each draw-off point, which comprises a draw-off steam supply for the draw-off steam pn, Tn of the associated n-th draw-off point, while also between an n-th and a (n + l) th feed water preheater an additional feed water preheater is arranged, to which, via a partial flow pipe with pump drawn from the tap steam supply taped to the nth feed water preheater, tap steam from the nth draw-off point with a steam pressure pm increased with respect to p and temperature increased with respect to Tn (at Pm ^ Pn + 1? Tm ^ Tn + 1 ^ can be supplied, characterized in that between an n-th and a n (n + l) -the feed water preheater (2) a number of j, (j ^ 1) additional feed water preheaters (3) are provided, which are connected in series with respect to the feed water preheater, these j additional feed water preheaters - ( 3) by means of pumps designed as mechanical compactors (4, 7), all of them can be supplied with draw-off steam from the n-th draw-off point, while the mechanical compactors (4, 7) provide a compression of the partial flows supplied to them at a temperature greater than Tn with steps of approximately (T +1 - Tn) / (j + 1), at corresponding pressures are dimensioned. 2. Device according to claim 1, characterized in that the mechanical compactors (4, 7) which are connected in series are used. Device according to claim 1 or 2, characterized in that a water-softener (8) is connected after the feed water pre-heaters (2) and the additional feed water pre-heaters (3), so that the tap steam with the steam pressure pn and the steam saturation temperature Tn% 8203162 i '- 7 - is fed, while a partial flow can be supplied from the annealed jamming to the mechanical compactors (4, 7). / 8203162