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Proportioning Systems. Proportioning Systems. Now you know the benefits and uses of water additives, especially Class A foam. So how do we get the concentrate into the water? The following reviews various proportioning technologies along with capabilities and limitations of each.
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Proportioning Systems • Now you know the benefits and uses of water additives, especially Class A foam. So how do we get the concentrate into the water? • The following reviews various proportioning technologies along with capabilities and limitations of each
Why Clubs And Racquets With Larger Heads? A bigger sweet spot
The Proportioning Sweet Spot • The range in which the proportioner can deliver acceptable performance • Flow range • Pressure range • Proportioning rates • Foam viscosity • Desired accuracy • Every proportioner has a sweet spot • Size varies by type of system
6% 3% Lean Rich 1% + - 40% 30% 30% 20% 10% 10% 20% NFPA Accuracy Requirements • For proportioning rates equal or greater than 1%: • - 0% to + 30% or 1 percentagepoint, whichever is less • For proportioning rates less than 1%: • - 0% to + 40% RatioAllowable Range 6% 6.0 - 7.0% 3% 3.0 - 3.9% 1% 1.0 - 1.3% 0.5% 0.5 - 0.7% 0.2% 0.2 - 0.28%
Foam Proportioner Design • Manual systems • Automatic systems
Manual Foam Proportioners Eductors Around the pump systems Self-educting nozzles
130 psi Outlet 200 psi Inlet Eductor Check Valve Metering Valve Water Pump Foam Concentrate In-Line Eductors
Shut-Off Closed 130 psi 200 psi Check valve Water Pump Metering valve Foam Concentrate By-Pass Eductor
Eductors • Capabilities: • Operate over narrow range of flows and pressures • Limitations: • 35% pressure loss • Sensitive to pressure changes downstream • Must match flow and nozzle • Nozzle height limited to ten feet • Narrow sweet spot (single flow and pressure point)
Must Match Flow, Eductor & Nozzle 125 gpm eductor 125 gpm nozzle
Eductor - Correct Pressure & Flow 20" of Vacuum 130 psi Outlet 200 psi Inlet Performance reduction of 35% creates required vacuum
Eductor - Incorrect Pressure & Flow 12" of Vacuum 140 psi Outlet 200 psi Inlet Longer hose lay, increased elevation or nozzle restriction reduces vacuum
Eductor - Incorrect Pressure & Flow No Vacuum 150 psi Outlet 200 psi Inlet Increasing restriction even more on outlet side can eliminate vacuum
Foam solution from all discharges Max. 10 psi. Incoming Pressure Shut off Valve Water Pump Eductor Shut off Valve Foam Concentrate Check Valve Metering Valve Around The Pump Proportioner
Around The Pump Proportioner • Capabilities: • Foam solution available to all discharges • Limitations: • Maximum incoming pump pressure of 5 to 15 psi • Average operating foam proportioning error of 1 to 1-1/2 percentage points • Pump solely dedicated to foam operation • Narrow sweet spot
Around The Pump Eductor Foam concentrate From pump discharge Eductor To pump suction
Around The Pump Class A foam control Class B foam control
Around The Pump “Incoming pressure less than 12 psi” “When flow stops, immediately turn metering valve off”
Monitor Metering Valve Control Valve Foam Tank Water Pump Self-Educting Nozzles
Self-Educting Nozzles • Capabilities: • Large flows at 1%, 3% or 6% • Lower pressure drop than regular eductors, 10% or less • Increased stream reach • Flexibility in use, not a fixed system • Limitations: • Narrow sweet spot
Foam percentage selection Self-Educting Nozzle
Automatic Foam Proportioners Balanced pressure bladder systems Balanced pressure pump systems Electronic direct injection systems
Balanced Pressure Bladder Systems Three-way Valve Concentrate Fill Line Pressure Tank with Bladder Water Dump Line Foam Concentrate Metering Valve Check Valve Modified Venturi/ Pressure Differential Valve Water Pump
Balanced Pressure Bladder Systems • Capabilities: • Requires water flow to operate proportioner • Limitations: • Operator does not know how much foam is in bladder • Must shut down to refill • Water flow up to 350 gpm and discharge pressure restrictions • Medium Sweet Spot
Foam Tank Concentrate Pump or Metering Valve Pilot-Operated Balance Valve Check Valve Modified Venturi or Ratio Controller (one per discharge) Water Pump Balanced Pressure Pump Proportioners Check Valve
Balanced Pressure Pump Proportioners • Capabilities: • Foam concentrate flow to over 300 GPM • Plumbed discharges capable of foam or water • Ability to vary foam concentrate % rates by discharge • Limitations: • Water flow limits • Discharge pressure restriction • Low flow and low percentage operation • Medium sweet spot
Metering Valve ADJUSTINGKNOB CONCENTRATEFLOW POINTER PLUG STEM TODISCHARGEPROPORTIONER
SOLUTION RECOVERY AREA FLOW WATER FLOW Ratio Controller CONCENTRATE INLET LOW PRESSURE AREA BLENDING AREA
2” Modified Venturi Cut-Away Foam capabilities of 60 to 200 GPM Water flow and pressure restrictions
Balanced Pressure Pump SystemParts Cut-Away Metering/Shut-off valve sets amount of foam concentrate entering the system by percentage selected Ratio Controller (venturi) creates a pressure drop allowing the foam concentrate to be pumped into the water way
Balanced Pressure Pump SystemPanel Controls Duplex Pressure Gauge
Balanced Pressure Pump SystemPlumbing Crowded pump compartment Modified venturi or ratio flow controller (one required per discharge)
FOAM SYSTEM OPERATING PARAMETERS FOAM CONCENTRATE TYPES(S): CLASS A OR CLASS B SYSTEM OPERATING PRESSURE RANGE: 75-200 PSI DO NOT EXCEED 200 PSI OPERATING PRESSURE SYSTEM PROPORTIONING AND FLOW RATES: NOMINAL RATE PROPORTIONER SIZE SOLUTION FLOW RATE (GPM) 0.3 - 1% 3% 6% 2 60-200 60-200 60-200 2.5 80-320 80-320 80-250 3 150-625 150-500 4 300-1250 Balanced Pressure Pump System Capabilities
Balanced Pressure Pump Proportioners Pressure drop through venturi GPMFriction loss 0 0 psi 50 10 psi 75 12 psi 100 15 psi 125 20 psi 150 25 psi 175 35 psi 200 40 psi 225 55 psi 250 70 psi
Foam Tank Line Strainer Check Valves Flow Meter FoamPro Single Point DirectInjection Proportioner Digital Display Control Water Tank Multiple Discharges Water Pump