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Published byJerome Pierce Modified over 7 years ago
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Humidity Measurement Benefits in Power Applications
Electric Power Conference April 21, 2016 Jeff Bossong, H2O
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Objective of Presentation
H2O Technology Power Plant App
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H2O Technology Absolute Humidity Sensor Advantages
Direct measurement of the water molecule Dipole moment measuring effect In-situ measurement Advantages High temperature operation – 1000 F High particulate operation Minimal maintenance Corrosive and condensing environments are not an issue Accurate Robust (sensor life is 10 years minimum)
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Installation Requirements
Probe sizes – 490 mm or 1,470 mm lengths Flange - 4 inch, 150 lb ANSI Power – 110V, 5 Amps Output Signal – mA isolated Measurement unit – g/m3 corrected to 0C at process pressure Other Units – Equations are provided (i.e., dewpoint, RH, humidity ratio)
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Picture / Drawing
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Installation
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Power Plant Applications
Coal / Biomass Fired Boilers Tube leak detection Soot blower feedback Heat rate calculations Air heater in-leakage Dry scrubber control Environmental reporting Wet scrubber stack protection Optimization Software Input Pulverizer control Combined Cycle Tube leak detection Dew point measurement Feed water Temperature control Environmental reporting Power Augmentation Optimization Software Input
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Combined Cycle Tube Leak Detection – HRSG Outlet
Our detection limit is 0.1 g/m3 at 0C Volumetric flow rate: 1,300,000 m3/hr Detection limit = leak / volumetric flow rate Leak = .1*1,300,000 Leak = 130,000 g/hr Leak = 4.78 lbs/min or 0.57 gallons per minute Process noise includes ambient humidity Could be used in conjunction with acoustic systems – lower detection limit-acoustic fines location
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Combined Cycle Dewpoint Measurement – HRSG Outlet
Water Dewpoint equation Pd = (1-(0.0001*(SQRT((0.1*T)+1)+4)))*461.51*(T )*F* Dp = ( *LN(Pd/6.1078))/( LN(Pd/6.1078)) T = Temperature in C F = Absolute humidity at process conditions Pd = Water vapor pressure Dp = Dewpoint temperature Water dew point temperature varies 111 to 120 F Corrosion prevention during outages
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Water Dewpoint Temperature
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H2SO4 Determination Verhoff & Banchero Formula
Tds = 1000/( ln(p H2O) ln(p SO3) ln(p H2O) ln( p SO3)) Partial pressures are expressed as mmHg Use humidity sensor as a direct input to equation Use worst case constant for SO3 concentrations Varies six degrees as a function of H2O concentration
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Verhoff Chart – NG-CC
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Sulfur Dewpoint Data - CC
SO3 PPM H2O % Tds (Celsius) Tds (Farenheit) 0.1 9 10 12 0.5 1
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Verhoff Chart – Coal Plant
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Sulfur Dewpoint Data - Coal
SO3 PPM H2O % Tds (Celsius) Tds (Farenheit) 1 9 10 12 5
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Combined Cycle Environmental Reporting - Stack
Provides real time, accurate moisture concentration EPA method 4 is not very accurate and data is a snapshot Could hurt or help depending on humidity number used for reporting Power Augmentation – Turbine Inlet Improved accuracy of dewpoint temperature Reduce factor of safety so inlet temperature can be lowered without condensation Optimization Software Input EtaPro, Neuco, Smart Burn, GE Optimization
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Coal / Biomass Tube Leak Detection – Economizer Outlet
Our detection limit is 0.1 g/m3 at 0C Volumetric flow rate: 372,000 m3/hr Detection limit = leak / volumetric flow rate Leak = .1*372,000 Leak = 37,200 g/hr Leak = 1.37 lbs/min or 0.17 gallons per minute Process noise includes ambient humidity, soot blows and fuel moisture More process noise but lower air flow
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Coal / Biomass Economizer Outlet Soot blower feedback
Safety to assure steam is firing Protect lances from bending and plant shutdown Heat rate calculations Fuel moisture variation Air heater efficiency Optimization Software Input
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Coal Biomass Air Heater In-Leakage Rate – Economizer Outlet and Air Heater Outlet Water doesn’t stratify like oxygen: more accurate, real time leakage rate Equation AHI * y + AHA * x = AHO * F , where F=x+y x = (AHI-AHO)*F/(AHI-AHA) AHI = H2O reading at air heater inlet AHA = ambient humidity in g/m3 (manual or real time) AHO = H2O reading at air heater outlet F = flow leaving air heater x = volumetric leakage rate y = flow entering air heater No flow measurement will still provide a relative difference
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Coal Biomass Dry Scrubber Control – Scrubber Outlet, Baghouse Outlet or Stack Control to an approach to adiabatic saturation temperature Better SO2 removal at lower temperatures improves lime usage Protects baghouse from corrosion Moisture variables include sootblow, load change, fuel moisture, ambient air humidity and tube leaks Dewpoint can vary up to 10 degrees depending upon time of year and conditions
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Coal / Biomass Environmental Reporting – Stack
Improved accuracy of emissions Could hurt or help depending on humidity number used for reporting Wet Scrubber Stack Protection Control reheat or bi-pass after scrubber Water carry over can increase moisture concentration past scrubber outlet dewpoint
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Coal / Biomass Pulverizer Control – Pulverizer Outlet
Sensor is a real time input for mass and energy balance across the pulverizer Sensor will also identify upset conditions, i.e. air flow upsets Dryer Control – Dryer Outlet Same as above
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Thank You – Questions?????
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