process heating – temperature stability under dynamic flow rates direct steam injection for...
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Process Heating – Temperature Stability Under Dynamic Flow Rates
Direct Steam Injection for Sustainability
David Degelau
Hydro-Thermal CorpCertified Steam System Specialist
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Presentation Summary
• Industrial heating methods• Direct steam injection (DSI) basics• Inherent properties for sustainability• Case Studies -
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Industrial Heating MethodsDirect and Indirect
Steam Heating
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Indirect or Direct Heating
Hot condensate out
Cold liquid in
Steam inCold Liquid In
Warm out
Steam inWarm out
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Direct Fluid Heating - Sparging
• Sparging– Oldest method of direct
steam injection– Very inefficient– Prone to tank failure– Limited temperature
control– High maintenance costs
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Common Sparging Problems
• Steam Hammer– Steam bubbles present in pipe– Bubbles combine and grow – Bubbles contact cool pipe wall and
collapse– Water rushes into void at high velocity
• Overheated zone around sparge nozzle
• Steam bubbles in pipe may damage tank
• Steam bubbles may escape into atmosphere
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Direct Fluid Heating – Mixing Tees
• Mixing Tees– Very high maintenance– Prone to scaling and fouling– Steam hammer common– Potentially very dangerous– Limited temperature control
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Direct Fluid Heating – Sparge Tube• Perforated tube sparger– Requires external steam control
valve– Very high maintenance– Prone to scaling and fouling– Steam hammer common– Limited temperature control due
to external control– Internal spring prone to
breakage
TM
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Direct Steam Injectionvs.
Heat Exchangers
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Contrast: Heat Exchanger vs. DSI• Indirect vs. Direct– Indirect = heat transfer only; no fluid mixing
Steam in(Hot)
Warm out
Cold Liquidin
Hot Condensate out
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DSI Advantages• Rapid and uniform heating—important in starches
and food products• Can heat highly viscous fluids• Handles fluids that are difficult to heat—avoids
“bake-on”; abrasive slurries• Compact footprint• Minimizes plugging and fouling• Rapid response time
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Energy Losses in the Heating Process
Water Treatment
Makeup water
Process Fluid
HX
Trap system
Boiler
Blow Down losses
Condensate losses
Stack losses
Flash losses
Heat loss
Steam
Pump power
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Maintenance – Steam Systems
Water Treatment
SlurryHX
Trap system
Boiler
Condensate return
Blow Down
Makeup water
* Steam Survey, 2002 Greg Harrell, Ph.D., P.E. US Dept. of Energy
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Internal ModulationSteam Velocity ~1500 ft/sec
Full Steam Pressure
(Psteam)High Velocity Steam Jet
Steam Nozzle
Combining tube
Stem / Plug Hot Liquid Discharge
Steam Inlet
Liquid InletPatented internal modulation DSI unit
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Contrast: Sparging vs. DSIPaper mill – actual data• Reduced steam usage by 33%
– 932 lbs (422 Kg) with spargers– 624 lbs (283 Kg) with DSI
• Time Savings• Daily production increased by 32%
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Maximum Boiler Energy Efficiency
• 100% efficient use of steam heat energy• Reduced steam consumption• Less energy required at boiler• 25% - 30% reduction is common• Lower energy costs
rev 3.09
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Energy Comparison Report• Process fluid to be heated• Process flow rate• Incoming temperature• Desired temperature at output• Available steam pressure • % of condensate returned to the boiler• Boiler makeup water temperature• Hours per day in use• Boiler fuel cost per million Btu
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Energy.gov
ENERGY Calculator
• Process fluid type• In/out temperature • Process flow rate• Hours per day in use • Steam pressure • % condensate returned• Boiler makeup water temperature• Boiler fuel cost per million BTU
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Precise Temperature Control = Efficiency
175
180
185
190
195
200
205
0 50 100 150 200 250 300 350
Time (s)
Wat
er T
emp
erat
ure
, °F
PoorTemp
ControlTight
Temp Control
Tight temperature control results in
Lower set-point
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Direct Steam Advantages
• Reduced steam consumption• Significantly lower energy costs• Low maintenance• Handles fluids that are difficult to heat—avoids “burn-on”;
highly viscous or abrasive slurries are no problem• Small size• Consistent, precise discharge temperature• No condensate return required
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Sustainability & the Triple Bottom Line
• Economic– Sales, profits, ROI– Jobs created– Taxes paid
• Environmental– Air, water quality– Energy usage– Waste produced
• Social– Community impacts– Product responsibility
Sustainability Triangle
Firms that maximize the sweet spot thrive in changing environments
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Direct Steam Injection Technology
Real-World Results Case Studies
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Typical Food Processing Applications
Utility HeatingUtility Heating• CIP and COP water heatingCIP and COP water heating• Washdown hose stationsWashdown hose stations• Jacketed kettles Jacketed kettles • Sterilization potsSterilization pots• Can toppingCan topping• Bottle and can rinsingBottle and can rinsing• Thermal inactivationThermal inactivation
Process HeatingProcess Heating• Pet food processingPet food processing• Thick stock/paste heatingThick stock/paste heating• Baby food/formula Baby food/formula
cooking/pasteurizingcooking/pasteurizing• Sauce heating/thickeningSauce heating/thickening• Soup base cookingSoup base cooking• Condiments heatingCondiments heating• UHT pasteurizationUHT pasteurization• Starch cooking Starch cooking
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Success #1 Processor Reduces Cycle Time (Slurry Heating)
• Meat slurry cooking• Customer needs to give
permission to use name,or use a ‘not to be named’ company format
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Success #2 Plant Improves Throughput (Water Heating)
• Jacketed vessel tanks• Replaced inefficient tank sparger– Scaling clogged heater– Steam hammer damaged tanks
• DSI benefit impact– Self-cleaning design increased uptime by 20%– $2000/month saved by eliminating tank welding repairs– Consistent temperature set-point maintained• 60°F incoming water raised to 200°F• 400 gallons per minute (widely fluctuating)
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Success #3Firm Improves Product – Slurry Viscosity • Product in extruder - viscosity kept at
acceptable levels to run smoothly and faster• Save time• Save energy
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Summary: DSI = Sustained Benefits
• DSI effectively transforms heat energy– Near-instantaneous energy (heat) transfer– Effectively 100% efficient
• Significant measurable sustainable benefits – Energy savings– Sanitation effectiveness– Lower production costs– Reduced maintenance costs– Productivity improvement
• More work gets done = more bottom line profits!
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Thank You!
David Degelau
400 Pilot CourtWaukesha, WI 53188
www.hydro-thermal.com
Hydro-Thermal CorpEngineer, Certified Steam System Specialist