DE19510006A1 - Hybrid powerstation steam-raiser unit - Google Patents

Abstract

The solar preheater (1) lies downstream of the air preheater. Solar preheating units are also installed in both the air and fossil fuel feedlines which are joined upstream of the steam-raiser entry. Thus it is also possible to install a solar preheater in the joined section of the two lines. The solar preheater downstream from the air preheater further heats the combustion air, possibly supplemented by solar preheaters (2,3) in fossil fuel, eg. coal-dust, oil, peat, biomass, etc. and air feedlines. Solar preheating variants include collector tower with receiver and heliostat, trough- or dish-type collectors, a tower having an open receiver or again planar collectors. The amount of fuel infed depends on the degree of preheat produced for the incoming combustion air, so that air raised to maximum combustion heat of 1100 deg.C eliminates the need for fossil fuel altogether.

Description

The invention relates to a device for Steam generation, especially for hybrid energy power plants for the use of fossil and solar Energy sources with a steam generator that has an Ab air line, a supply air line and a supply line for the fossil fuel and an air preheater unit has, in which the supply air duct and the Ab air line are thermally coupled to each other.  

In areas of high solar radiation, a can be pure solar thermal power plant with one too satisfactory relationship between storage capacity the energy gained from the sun and that from Sun provided energy, the so-called Solar multiples, the full load hours of a medium load reach the power plant. The so far realized Have solar power plants with thermal storage however, the expectations placed in them are not fulfilled and does not have the status of prototypes steps. Especially in areas of diminished sun radiation is the use of pure solar power plants not useful.

By way of current efforts, the fossil To conserve energy sources as much as possible and in them use existing energy value as effectively as possible, and at the same time the knowledge gained so far to use the field of solar technology, one pursues that Concept of the so-called solar hybrid power plants. These use both fossil energy and solar Radiation and therefore higher availability guarantee with good efficiency without with expensive Energy storage to work.

A solar hybrid power plant is said to be "free" resulting solar radiation is always optimal use. At the same time, it should meet the performance requirements of the network do justice to what is coordinated by a fossil energy supply can be regulated. The Exergy, d. H. the economically usable form convertible part of the energy supplied, the Fuel should also be used optimally will. So should be when converting the energy flows  as many parts of the system as possible are shared, to keep the specific electricity generation costs low hold.

A power plant with a thermal cycle is under best suited to these requirements. Act it is an open cycle, the solar heat fed to the fossil fuel before combustion will. With a closed thermal circuit in addition to this option, there is above all the possibility supply the solar heat directly to the circuit.

It stands under the existing thermal circuits especially the steam power cycle in the foreground, because due to hundred years of optimization, his exergetic maximum is very close. This is all the more more important because using solar technologies is connected to a relatively high cost of materials and only makes sense if the possibilities of rational use of energy and energy saving far are exhausted.

To clarify the energy and exergy flows of an exemplary coal-fired power plant, an exergy-anergy flow diagram of a typical steam power plant is shown in FIG. 1. Only a certain fraction of the total amount of energy provided by the fuel is converted into economically usable useful work (exergy, which is shown in FIG. 1 as a dark background). The rest of the energy portion (the so-called anergy) is lost and is shown in Fig. 1 as a light-colored area. The following irreversible conversions from exergy to anergy occur in the steam generator sector:

• A) The combustion of the fuel cannot all of the energy will be converted into exergy, so that a significant proportion is lost.
• B) The exhaust gas formation includes unusable Amounts of energy that ver the technical power process go lore.
• C) The warming of the working medium and thus associated heat transfer is also irreversible Losses that ent ent the technical work process be drawn.

The steam directly coupled to the steam generator The power cycle also contains irreversible loss Mechanisms that are as follows:

• D) Operation and preheating of the turbine.
• E) Capacitor operation
• F) Feed pump operation

From the energy flow diagram shown in Fig. 1 it can be seen that the majority of the exergy losses occurring in a thermal power plant arise during combustion. The operation of some known hybrid power plants contributes e.g. B. by the solar preheating of feed water to reduce this exergy loss.

1 also shows that in Steam power plants the largest exergy loss besides the  Combustion occurs during heat transfer. There solar heat usually at other temperatures accumulates as fossil heat, you can use the solar Integrate heat supply into the thermal power plant that fossil exergy losses are avoided. This can e.g. B. can be achieved by the solar Heat supply the thermodynamic mean temperature of the fossil heat supply to the steam cycle is raised.

This can be done in different ways: can be the feed water, which has a variety of thermodynamic intermediate stages to the steam generator is supplied by solar heat from one Collector field is obtained via a heat exchanger preheated in the range between 60 to 250 ° C. Likewise, the solar heat supply to the still liquid Working medium immediately before the evaporator stage possible, in front of which the working medium is a temperature between 250 and 350 ° C.

As an alternative to preheating or heating the liquid Working medium can be the necessary for combustion Air volume to be preheated solar. Preheating the amount of air necessary for combustion usually already in fossil-fired power plants applied in which the in the combustion gas after the Leaving heat from the steam generator over a regenerative heat exchanger of fresh ver combustion air is supplied. It should be noted, that the resulting flue gas does not have the acid dew point may fall below, otherwise the contained in the exhaust gas Sulfuric acid on chimney and boiler for corrosion and Material damage. On the other hand, the  Combustion air supplied should be sufficiently cool to high temperature difference between flue gas and ver combustion air and thus good heat transfer between the two gases.

With the previously known possibilities of solar Combustion air preheating is one of combustion air the solar heat before the regenerative heat exchanger through which the fresh combustion air passes the hot combustion gases is heated, supplied. This measure has proven to be disadvantageous represents that the heat transfer in the air preheater is negative is affected, especially if the solar Heat is supplied at high temperature.

The invention has for its object a Direction for steam generation, especially for hybrid Power plants for the use of fossil and solar Energy sources, with a steam generator, the one Exhaust air line, a supply air line and a supply line for the fossil fuel and an air preheater unit in which the supply air duct and the Exhaust air duct are thermally coupled, to develop in such a way that the heating of the for Combustion process necessary air flow no disadvantage influences on the heat transfer in the air preheater owns.

The solution to the problem is specified in claim 1. Advantageous embodiments are claims 2ff refer to.

According to the invention is a device for generating steam weiterge according to the preamble of claim 1  forms that before the inlet air duct and the Supply line for the fossil fuel in the steamer and after the air preheater unit at least a solar preheating unit is provided on the the media contained in the respective supply lines are heatable.

The invention is based on the idea that the fresh Combustion air undisturbed into the air preheater unit flows in and there with the healing combustion gas thermal contact, and preheated by this becomes. Only after the air preheater unit has exited according to the invention in the combustion air supply air line Heat transfer devices are provided on which the solar heat at high temperature the already pre heated combustion air can be supplied.

In this way it is achieved that the temperature difference between the fresh combustion air and the healing flue gas in front of the air preheating unit is relatively large, causing significant warming the combustion air through the healthy flue gas can take place.

Alternatively, the invention provides that in the fuel circuit, for example in the supply line for the Coal dust as well or alternatively solar heat coupling elements are provided. Furthermore, such Heat coupling elements also integrated in the supply line through which the combustion air together with the Open the fuel into the evaporator unit itself.

The invention is based on an embodiment example with reference to the drawing  described as an example. Show it

Fig. 1 exergy-anergy flow diagram of a conventional steam power plant and

Fig. 2 shows a schematic representation of various possibilities of preheating the solar combustion components, shown on the steam generator of a conventional power plant.

As already described above, it can be seen from the exergy-anergy flow diagram shown in FIG. 1 that the greatest losses which occur during the combustion occur during the combustion itself and during the heat transfer to the working medium. The idea pursued with this invention is intended to make a decisive contribution to reducing these losses.

In FIG. 2, a typical steam generator is shown, which consists of an evaporator unit, a superheater, a reheater and a so-called economizer, which further heats the feed water after the last high pressure preheater from combustion gas to the vaporization temperature. The flue gas generated in the combustion process is derived from the steam generator and fed to an air preheater (Luvo). In the air preheater, the fresh combustion air is supplied, there is a heat transfer between the healthy flue gas and the fresh combustion air, so that the combustion air is preheated decisively.

According to the invention is after the air preheater in the combustion air supply line a solar Vorwärmerein unit 1 , which further heats the already preheated combustion air. Alternatively or in addition, there is also a solar preheater unit 2 in the feed line of the fossil fuel, so that, for example, coal dust supplied is preheated to a corresponding temperature before the coal dust reaches the evaporator unit. Furthermore, a further solar preheating unit 3 can be provided in the common feed line of combustion air and coal dust before entering the evaporator.

In FIG. 2, all 3 options are shown schematically, which may be arranged alternatively or additively.

Instead of using coal dust as a fossil fuel other fossil fuels as with for example natural gas, oil, peat, biomass can be used.

Depending on the solar heat supply, the fossil energy supply to be shut down. in the Ideally, the incoming combustion air can the maximum combustion temperature of approx. 1100 ° C be heated so that the fossil fuel supply can be completely replaced. For solar thermal Change can also use collector technologies be drawn at least a temperature of 100 ° C to reach. Typical collector technologies are in listed in series:

• - tower with closed receiver and heliostat field, which directly heats the combustion compo enable nenten.
• - Collector array with trough collectors or dishes that  indirect heating of the combustion components enable via a heat transfer medium.
• - tower with closed receiver and heliostat field, which indirectly heats the combustion compo allow nenten over a heat transfer medium.
• - Tower with an open, volumetric receiver, with a Part of the by the power plant air preheater (Luvo) preheated air is lost.
• - Highly efficient air collectors or Flat plate collectors.

Claims (5)

1.Device for steam generation, in particular for hybrid power plants for the use of fossil and solar energy sources, with a steam generator which has an exhaust air line, an air supply line and a supply line for the fossil fuel and an air preheater unit in which the supply air line and the exhaust air line are thermally connected are coupled, characterized in that before entering the air line and the supply line for the fossil fuel in the steam generator and after the air preheater unit at least one solar heating unit is provided on which the media containing the respective supply lines can be heated. 2. Device according to claim 1, characterized in that a solar pre heating unit after the air preheating unit in the Supply air line is provided. 3. Device according to claim 1 or 2, characterized in that a solar preheating unit is provided in the supply line for the fossil fuel. 4. Device according to one of claims 1 to 3, characterized in that the supply air line and Supply line for the fossil fuel before entering the steam generator merges.   5. The device according to claim 4, characterized in that a solar preheating unit is provided in the supply part in which the supply air and the fossil fuel are contained together.