WO2015028378A2 - Operating method, in particular for starting a once-through steam generator heated using solar thermal energy - Google Patents

Abstract

The invention relates to an operating method, in particular for starting a once-through steam generator (3) heated using solar thermal energy, wherein a previously determined desired enthalpy value (34) is taken into account in an operating phase under load for adjusting a device (5) for controlling a feed water mass flow (S) supplied to the once-through steam generator. In order to adjust the feed water mass flow (S) supplied to the once-through steam generator, in a starting phase preceding the operating phase under load, an adjusted desired enthalpy value (34') that is valid for said starting phase is taken into account, said altered correction value (34') being selected in such a way that the once-through steam generator (3) is overfed, causing a portion of the feed water mass flow (S) supplied to the once-through steam generator (3) to pass unevaporated out of the once-through steam generator (3) and to be discharged via a steam-water separator (100) arranged on the outlet of the once-through steam generator (3).

Description

description

Operating method, in particular for starting up a solar thermal heated forced-circulation steam generator

The invention relates to an operating method in particular for starting up a solar thermal heated forced-circulation steam generator according to the preamble of claim 1.

Solar thermal power plants are an alternative to conventional electricity generation ago ^¬. An already known power plant concept in this area is trough power plant, the so-called parabolic. Thermo oil is typically used as the heat transfer medium in this type of power plant

Parabolic troughs of a solar field flows through and so absorbs the heat introduced via the sun and transmits to a steamer ^¬ generator in pipes flowing through flow medium.

For such a solar thermally heated steam generator provides the once-through principle is the preferred execution ^¬ form. The entering the once-through steam generators and designated at this point as feedwater Strö ^¬ tion medium is warmed up in a single pass, vaporized and overheated. The superheated medium is then supplied as live steam via a water-steam separator of the steam turbine. The water-steam separator at the outlet of the once-through steam generator is predominantly used during the start-up phase. Superheated medium present at the outlet of the once-through steam generator and therefore also in the water-steam separator during normal load operation ^¬ phase must, however always sufficient for the steam turbine is not supplied with saturated steam. The setting of the corresponding live steam temperature at the outlet of the once-through steam generator can therefore be set precisely by selecting the correct feedwater mass flow, or fluctuations in the feedwater ^mass flow are directly linked to fluctuations in the live steam temperature. To avoid such variations in the steam temperature in the supply water-steam cycle, in particular during the load ranges ^¬ operating phase solar thermal power plants to counteract a process for pre- diktiven or anticipatory control of Speisewassermas- is senstroms already in WO 2012/110344 Al by means of a correction value proposed. This type of predictive control of the feed-water mass flow it ^¬ it enables, variations of the present at the outlet of the forced-flow steam generator specific enthalpy from the target value and the resulting undesirably large Schwan ^¬ effects of the steam temperature in all operating states of the load operation, the by transient conditions such as at ^¬ play, in a Load changes are caused to keep as low as possible.

Such transient conditions occur not only during the last phase of operation, but also already during the startup phase of ^¬ solar thermally heated Zwangdurchlaufdampf- creator. Thus, especially in the start-up phase, ^severe temperature changes with high temperature transients may occur at the exit of the forced-circulation steam generator. This is essentially due to the fact that after the first heat absorption by the heat transfer medium first steam is produced, which expels excess not yet ver ^¬ steamed feed water from the tubes downstream (so-called water discharge) then in the water-steam separator (from the produced steam) must be disconnected. This strong

transient process of water discharge usually results in a short-term decoupling of the fresh steam mass flow at the outlet of the forced continuous steam generator from the feedwater mass flow at the inlet of the forced continuous steam generator. This effect is further enhanced by the fact that in this caused by the increasing solar radiation start-up phase flowing into the forced flow steam generator heat transfer medium continuously increases its temperature. Especially in the start-up phase of solar- ^thermally heated forced- ^circulation steam generators, inadmissibly high temperature transients at the outlet of the forced-circulation steam generator occur, which can lead to material failure in the worst case, especially in thick-walled components of forced-circulation steam generator, such as the outlet headers. This is just solar thermal

Power plants, which must be approached daily depending on the sunlight, especially disadvantageous.

The object of the invention is therefore to provide an improved loading ^¬ operating method, the transient states not only during normal operation in the load operation ^¬ phase, but also in particular already during the tägli ^¬ chen startup and during the start of the ^solar-¬ mixture heated once-through steam generator within acceptable limits.

This object is achieved with the method for starting a

Forced once-through steam generator with the features of claim 1 solved. By using the method according to the invention, namely the overfeeding of the forced once-through steam generator during the start-up phase with feed water, a gentle increase in the live steam temperature at the outlet of the forced continuous steam generator is also possible during startup. Thus, thick-walled components, such as e.g. Outlet collector and water-steam separator safely protected against premature material fatigue, ensuring safe operation of the solar thermal power plant. Advantageous developments can be found in the dependent claims.

The invention will now be ^¬ tert reference to a figure by way of example erläu. The exemplary embodiments known from WO 2012/110344 A1 for the predictive or prospective mass flow control of the feedwater S in the load operating phase should also be applicable to the present invention. For example, the one shown in WO 2012/110344 AI fourth figure according to the invention now extended so that during the start-up phase is applied to the peculiarities of this start-up Adapted Enthalpiesollwert 34 'is used. Specifically, this means that in the in WO 2012/110344 AI loading signed embodiments, a solar thermally heated once-through steam generator 3 and a device 5 for controlling a the once-through steam generator supplied guiding ^¬ th feed water mass flow S, in the start-up a applicable for this start-Angepasster- Enthalpiesollwert 34 'is set, which represents a suitable for the forced-continuous steam generator steam content at the current operating pressure and not enthalpy desired value 34, which speaks an overheated temperature for the normal load operating phase ent ^¬ . The parameter range of the vapor content could theoretically assume any value between zero and one, whereby too high a vapor content does not significantly affect the temperature transient at the outlet of the once-through steam generator and thus the desired effect due to the overfeed does not set, while one too low Steam content causes the water output to increase excessively. The steam content should therefore preferably be in the range between 0.4 and 0.75 kg / kg. Initial studies have shown that a vapor content in this range is a good compromise between both requirements (low temperature transient as well as moderate water output).

Through the use of such a reasonable for the start-fit Enthalpiesollwertes 34 ^λ occurs during the Anfah ^¬ proceedings of the solar thermal power plant in the start of the forced-flow steam generator 3 to an oversupply or overfeeding of the once-through steam generator 3 with feed ^¬ water S. This measure increases Although the integrally accumulated amount of water of the water discharge, which is discharged via the water-steam separator 100 at the outlet of the forced continuous steam generator 3. The larger feed water mass flow S, however, the temperature increase at the outlet of the once-through steam generator con ^¬ trolled be much better, so that unacceptably high Temperaturtransien- be prevented as much as possible. Through the above operation so fed the negative effects of flow decoupling between the feedwater and live steam mass flow can be reduced, so that a smoother temperature increase at the outlet of the forced-flow steam generator mög ^¬ Lich is.

The further development of the invention disclosed in WO 2012/110344 AI operation method results in the start-up at a reduced load compared to the operating phase Enthalpiesollwert and thus to an increase of the value calculated from the Wärmebi ^¬ lance of the once-through forced flow steam generator feedwater sermassenstroms. At the appropriate time, the Enthalpiesollwert used in the Wärmebi ^¬ Lanz then from the enthalpy of the chosen here in the start-up steam content of at ^¬ play 0.5 kg / kg, on the not ^¬ manoeuvrable for the load operating phase steam temperature associated enthalpy and so from that for the Startup process applicable Adapted enthalpy setpoint 34 'to the set in the usual load operation Entthalpiesollwert 34 for the device 5. In order for this first, does not lead to an impermissible leap of storage sewassermassenstroms S, and secondly, the live steam ^¬ temperature increase at the outlet of the once-through steamer ^¬ zeugers also during switching from start-up to load the operating phase moderately, that is a low as possible ^¬ ren temperature change occurs, 34 ^λ is preferable and the Enthalpiesollwert 34, a kon ^¬ tinuierlicher transition between Adjusted-Enthalpiesollwert. Preferably, the transition between the two enthalpy set points should be limited so that the enthalpy change rate does not exceed 2 kJ / kg per second. The switching from 34 'to 34 should also preferably take place at the time when the acute pressure exceeds the predetermined fixed pressure setpoint of the once-through steam generator. Thus small fluctuations of the current

Pressure in the water-steam circuit of the Zwangdurchlaufdampfer ^¬ zeugers not lead to the fixed pressure setpoint in advance to an early switch, should be a suitable distance to Fixed pressure setpoint of, for example, two bar are considered as Umschaltkri ^¬ terium. Specifically, this means that the switching process from 34 'to 34 is only initiated when the pressure in the once-through steam generator 3 has reached a value during start-up which corresponds to the fixed pressure setpoint including 2 bar.

Claims

claims

1. Operating method, in particular for starting up a solar thermally heated forced once-through steam generator (3), in which a previously determined enthalpy desired value (34) is taken into account in a load operation phase for setting a device (5) for controlling a feedwater mass flow (S) supplied to the forced-circulation steam generator,

d a d u r c h e s e n c i n e s, d a s s

for setting the supplied to the once-through steam generator feed-water mass flow (S) for this startup ^¬ phase existing Adjusted-Enthalpiesollwert (34 ') is taken into ^¬ into account, said Adjusted-Enthalpiesollwert (34' in one of the load ranges ^¬ operating phase preceding start-up phase) is chosen such in that the forced-circulation steam generator (3) is over-fed and thus part of the feedwater mass flow (S) supplied to the forced-circulation steam generator (3) exits non-evaporated from the forced-circulation steam generator (3) and via a water-steam separator arranged at the outlet of the forced-circulation steam generator (3) (100) is discharged.

2. Operating method according to claim 1,

d a d u r c h e s e n c i n e s, d a s s

The applicable for the start-up phase adapted enthalpy ^¬ target value (34 ') corresponds to an enthalpy, which corresponds to currently prevailing pressure of the feedwater-steam cycle a suitable for the forced continuous steam generator steam content of 0.4 to 0.75 kg / kg.

3. Operating method according to claim 1 or 2,

d a d u r c h e s e n c i n e s, d a s s

occurs at the end of the starting phase, in particular at the earliest after Errei ^¬ chen a fixed pressure value, a continuous transition from Adjusted-Enthalpiesollwert (34 ') on Enthalpiesollwert (34), this transition is designed so that the rates of change between the two enthalpy Setpoints does not exceed 2 kJ / kg per second.