Vibrating level switch with turbo drive ensures reliable measuring signal
The vibrating level switch VEGASWING 66 works reliably and thus encounters the difficult ambient conditions in the thermal power plant.
Sometimes, seemingly difficult measurement situations can be solved by applying simple technologies – provided these are robust enough to withstand the challenging environments. This is what happened at the Jining Thermal power plant of China Huaneng Group Co, Ltd. in Jining, in the eastern Chinese province of Shandong. There, the vibrating level switch VEGASWING 66 simplified in one fell swoop the level measuring point that had previously been considered hopelessly complicated.
The production process in the Chinese thermal power plant in Shandong (capacity 380 MW) employs a high-pressure steam bypass system, which, to be sure, mainly takes effect only when the turbine is started up. When the turbine starts, water in the boiler is heated, generating steam. At this point, however, the steam parameters do not yet correspond to the operating state of the turbine. The temperature of the steam is still too low and it contains too much moisture. And it is exactly this that is problematic for the turbine, since very fine water droplets hit the turbine blades at high speed, possibly damaging the turbine blades. For that reason, the steam from the boiler is first passed through a bypass system. Only when the steam is in the right condition – i.e. without water droplets and at operating temperature – is the system switched off and the steam fed into the turbine.
When the steam bypass system is used, water collects at the bottom of the pipe. If the water is not drained in time, the pipe gets flooded, which can lead to problematic situations. So the water level must be accurately measured and lowered at the right time. In the past, the water in the turbine's steam bypass system was detected by a float switch. Due to frequent error signals, system shutdowns occurred again and again. To remedy this situation, the plant operator tried to find a level switch that would function reliably even at high temperatures (up to 325.5° C) and high pressures (38 bar).
Zbiornik kondensatu
Pomiar poziomu napełnienia i wykrywanie poziomu granicznego w zbiornikach kondensatu
W zbiornikach różnych instalacji technologicznych czysty kondensat jest zbierany do ponownego wykorzystania. Ten kondensat jest wydzielany w systemie pary, która służy do podgrzewania różnych procesów przetwarzania węglowodorów. W zbiornikach kondensatu z reguły panuje wysoka temperatura procesu, co wymaga odpowiednio dostosowanej technologii pomiarowej poziomu napełnienia i wykrywania poziomu granicznego.
Bezpiecznie
Wiarygodne wartości pomiarowe niezależne od wysokiej temperatury i pary
Ekonomicznie
Nie wymaga zabiegów serwisowych dzięki optymalnemu przyporządkowaniu redundantnemu
Komfortowo
Łatwa instalacja i uruchomienie
Przewód pary
Wykrywanie skroplin w obiegu wody - pary wodnej
Aby podgrzać wodę do kotła, przy turbinie elektrowni pobiera się parę i kieruje ją do podgrzewacza. Para ulega ochłodzeniu, a następnie skropleniu. Z podgrzewacza skropliny są tłoczone przez pompy. Wzrost poziomu skroplin musi być niezawodnie wykrywany aż do przewodu pary. Wibracyjny sygnalizator poziomu granicznego zapobiega przepływowi skroplin z przewodu pary do turbiny.
Bezpiecznie
Optymalna ochrona turbiny przed skroplinami
Ekonomicznie
Prosty montaż i niezawodne działanie
Komfortowo
Sprawdzenie działania przyciskiem testowym
Inductive drive as a solution for measurement under extreme temperatures
No one was able to come up with a convincing solution here until the advent of VEGASWING 66. This sensor’s core technology is a brand-new type of drive. Its patented inductive drive effortlessly manages to excite the tuning fork even under extreme temperature conditions. This means the user can take advantage of the simple installation and handling of a vibrating level switch, yet have an extended temperature range of -196° to +450° C and a pressure range of -1 to +160 bar. The sensor was thus the perfect choice for level detection in the steam bypass pipe.
Another advantage is that the sensor monitors itself and allows a function test to be initiated at any time to check if the sensor is in good working order. Corrosion on the fork, for example, would be reported immediately. The function test is carried out by simply pressing a button. In addition, the sensor is SIL2 qualified and can be used in homogeneously redundant systems up to SIL3.
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Energia
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