Method for detecting exhaust enthalpy of turbine
A detection method and technology of exhaust enthalpy, applied in measuring devices, measuring heat, instruments, etc., can solve problems such as no temperature measuring points, large measurement errors, and insufficient accuracy of system heat balance calculation results
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Embodiment 1
[0048] Example 1: According to four different working conditions, the exhaust steam enthalpy value of a 300MW steam turbine of SAIC was detected under any working condition.
[0049] 1) In four different power operating conditions: rated working condition (THA working condition), 75% rated working condition (75% THA working condition), 60% rated working condition (60% THA working condition) and 50% rated working condition The ideal enthalpy drop Δh of the low-pressure cylinder of the steam turbine is measured and calculated under the working condition (50%THA working condition) t And the percentage b of the sum of nozzle loss, rotor blade loss, blade height loss, sector loss, impeller friction loss, and leakage loss of the low-pressure cylinder accounted for the ideal enthalpy drop of the low-pressure cylinder b, to obtain the Δh under each working condition t and b, the estimated Δh t The methods for value and b-value are as follows:
[0050] 11) Use the temperature and pre...
Embodiment 2
[0078] Example 2: According to five different working conditions, the exhaust steam enthalpy value of a certain 300MW steam turbine of SAIC was detected under any working condition.
[0079] 1) In five different power operating conditions: rated working condition (THA working condition), maximum continuous output (TMCR working condition), 75% rated working condition (75% THA working condition), 60% rated working condition (60 %THA working condition) and 50% rated working condition (50%THA working condition), the ideal enthalpy drop Δh of the low-pressure cylinder of the steam turbine is calculated t And the percentage b of the sum of nozzle loss, rotor blade loss, blade height loss, sector loss, impeller friction loss, and leakage loss of the low-pressure cylinder accounted for the ideal enthalpy drop of the low-pressure cylinder b, to obtain the Δh under each working condition t and b, the estimated Δh t The methods for value and b-value are as follows:
[0080] 11) Use the...
Embodiment 3
[0103] Example 3: According to six different working conditions, the exhaust steam enthalpy value of a certain 300MW steam turbine of SAIC was detected under any working condition.
[0104] 1) In six different power operating conditions: rated working condition (THA working condition), maximum continuous output (TMCR working condition), summer working condition (TRL working condition), 75% rated working condition (75%THA working condition ), 60% rated working condition (60%THA working condition) and 50% rated working condition (50%THA working condition), the ideal enthalpy drop Δh of the low pressure cylinder of the steam turbine is calculated t And the percentage b of the sum of nozzle loss, rotor blade loss, blade height loss, sector loss, impeller friction loss, and leakage loss of the low-pressure cylinder accounted for the ideal enthalpy drop of the low-pressure cylinder b, to obtain the Δh under each working condition t and b, the estimated Δh t The methods for value an...
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