Zenith® H Series Gear Pumps - Precise, Pulseless, Repeatable Performance in High Temperature Applications

[Description]  [Features]  [Specifications]  [Applications]  [HPB]  [HMB]  [HLB]  [HXB]  [Selection Guide]  [Pump Capacity Selection Chart]  [Shear Rate vs. Speed]  [Constant K]  [Maximum Torque]

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In 1926, Zenith Pumps was approached by the synthetic fiber industry to design a pump to provide a precise, pulseless, repeatable flow and assure better quality control. The options then were the same as those in the chemical process industry today - diaphragm, lobe, coarse gear, piston, plunger, and screw pumps. Each had problems with pulsation, flow inaccuracies, multiple seal areas and slippage, which required constant calibration, high maintenance, and extended downtimes.

Zenith Pumps met the challenge and designed a rotary external gear pump of unique precision and simplicity. Manufacturing techniques were developed to hold tolerances to ±.00005" minimizing internal clearances to assure accurate and precise metering. The pump's simplistic design of only three moving parts - two metering gears and a drive shaft - provided long life and easy maintenance.

For years since, process engineers have relied on Zenith to provide precision fluid handling solutions for their most difficult pumping applications. Zenith gear pumps can found wherever precise, pulseless, repeatable metering of fluids is required.

Features 

  • High Accuracy - Stable, repeatable flows are assured even under varying conditions of temperature, viscosity, and pressure.
  • Minimum Pulsation - Unique design offers virtually pulseless flow without valves or flexible elements to hinder performance.
  • High Temperature Capability - Operating temperatures to 950°F (510°C).
  • Maximum Life - Only three moving parts; components are through-hardened tool and die steels to 62 Rc or better. Replaceable sleeve bearings for low-cost rebuilds.
  • High Volumetric Efficiency - Maximum efficiency is achieved with optimum operating clearances and assured under pressure by built-in alignment dowels.
  • Precision Construction - Ground and lapped components for close control of operating clearances.

Specifications 

  • Pump Type: Rotary external spur gear, single stream.
  • Rotation: Refer to pump drawing.
  • Operating Speed: 3-180 rpm depending upon application conditions and fluid viscosity.
  • Temperature: To 950°F (510°C)

Applications 

The H Series pumps are ideal for metering in such applications as:

Adhesives Foams Urethanes Plasticizers Monomers
Additives Coatings Surfactants Polyols Oils
Asphalt Inks Oxide Slurries Plastics Pigments
Abrasives Fibers Lubricants Paints Tars
Bottoms Pitch Polymers Resins Many others
HPB Metering Gear Pump

HPB Metering Gear Pump System

HPB Pump 

  • Flow Rates: .00013 to 0.14 gpm (.00048-.526 l/min).
  • Capacities: .16/.297/.584/1.168/1.752/2.92 cc/rev.
  • Inlet Pressure: Flooded suction recommended; 40 psi (2.8 kb/cm2) required to energize mechanical face seal.
  • Discharge Pressure: Limits 4,000 psi (281 kg/cm2).
  • Viscosity: 1 to 2,000,000 cps.
  • Porting: 3/8" inlet, 1/4" discharge.
  • Mounting: L-16 Parco-Lubrite cast iron mounting saddle, 3/8" inlet, 1/4" discharge NPT female.
  • Materials of Construction: M series tool steel.
  • Seals: Grafoil Packing-Model 5704.
    Mechanical face with tang slot - Models 4647 and 5205.
    Mechanical face with outer drive shaft - Models 5556 and 5557.
HMB Metering Gear Pump and System

HMB Pump 

  • Flow Rates: .00028 to .476 gpm (.011-1.8 l/min).
  • Capacities: 3.5/5.5/10.0 cc/rev.
  • Inlet Pressure: Flooded suction recommended; 40 psi (2.8 kb/cm2) required to energize mechanical face seal.
  • Discharge Pressure: Limits 4,000 psi (281 kg/cm2).
  • Viscosity: 1 to 2,000,000 cps.
  • Porting: 1/2" inlet, 5/16" discharge.
  • Mounting: L-5471 Parco-Lubrite cast iron mounting saddle, 3/8" inlet, 1/4" discharge NPT female.
  • Materials of Construction: M2 tool steel - All standard models.
  • Seals: Grafoil Packing-Model 5740.
    Mechanical face with tang slot - Model 4892.
    Mechanical face with outer drive shaft - Model 5555.

HLB Metering Gear Pump

HLB Metering Gear Pump System

HLB Pump 

  • Flow Rates: .008 to 2.4 gpm (.03-9.0 l/min).
  • Capacities: 10/20/30/50 cc/rev.
  • Inlet Pressure: Flooded suction recommended; 40 psi (2.8 kb/cm2) required to energize mechanical face seal.
  • Discharge Pressure: Limits 4,000 psi (281 kg/cm2).
  • Viscosity: 1 to 2,000,000 cps.
  • Porting: 1" inlet, 3/4" discharge.
  • Mounting: L-5139 Parco-Lubrite cast iron mounting saddle, 1" inlet, 3/4" discharge NPT female.
  • Materials of Construction: M series tool steel.
  • Seals: Grafoil Packing-Model 5592.
    Mechanical face with outer drive shaft - Model 5548.
HXB Metering Gear Pump and System

HXB Pump 

  • Flow Rates: .055 to 9.5 gpm (.21-36 l/min).
  • Capacities: 70/100/147.5/200 cc/rev.
  • Inlet Pressure: Flooded suction recommended.
  • Discharge Pressure: Limits 4,000 psi (281 kg/cm2).
  • Viscosity: 1 to 2,000,000 cps.
  • Porting: 2" inlet, 1-1/2" discharge.
  • Mounting: L-5427 Parco-Lubrite cast iron mounting saddle, 2" inlet, 1-1/2" discharge NPT female.
  • Materials of Construction: M series tool steel.
  • Seals: Grafoil Packing-Model 4980.

Selection Guide 

The following are general guidelines for pump selection and should be confirmed  with the factory or sales representative before ordering.

  1. Choose appropriate pump capacity based on flow rate. (See Chart 1).
  2. Determine pump operating speed (N).  N = Flow Rate (cc/min) ÷ (C) Pump Capacity (cc/rev)
  3. Determine operating viscosity (V) in poise. If fluid is non-newtonian, follow steps 3a and 3b.
    1. Identify pump’s operating shear rate. (See Chart 2)
    2. Refer to your viscosity vs. shear rate curve for operating viscosity (V) in poise.
  4. Refer to Table 1 for pump constant (K).
  5. Determine differential pressure (P) (discharge - inlet) in psi.
  6. Calculate input torque using the following:

    Th = .01• P • C
    Tv = N • K • V
    Tt = Th + Tv

  7. Determine maximum torques from Table 2.
  8. Choose a speed reduction ratio (R) based on pump operating speed.

    R = 22:1; 4 - 82 rpm
    R = 11:1; 8 - 160 rpm
    R = 5:1; 18 -180 rpm

  9. Drive Horsepower = Tt / (35 • R • .87)
  10. For hp <.5, choose .5 hp.  For hp between .5 and 1.0, choose 1 hp.  For larger hp, round up to the nearest whole number.

Pump Capacity Selection Chart 

Zenith H-Series Metering Gear Pump Selection Chart

Shear Rate vs. Speed 

Zenith H-Series Metering Gear Pump Shear Rate vs. Speed Chart

Constant (K) 

Table 1
HPB .160 0.0027 HLB 10 0.0267
HPB .297 0.0029 HLB 20 0.0356
HPB .584 0.0033 HLB 30 0.0445
HPB 1.168 0.0041 HLB 50 0.0623
HPB 1.752 0.0048 HXB 70 0.0409
HPB 2.92 0.0064 HXB 100 0.0456
HMB 3.5 0.0132 HXB 147.5 0.0531
HMB 5.5 0.0150 HXB 200 0.0610
HMB 10 0.0159

Maximum Torque

Table 2
HPB .16 - .297 All Models 80 lbs. - in.
HPB .584 Except 4647 195 lbs. - in.
HPB 1.168 - 1.752 Except 4647 410 lbs. - in.
HPB 2.92 Except 4647, 5704 460 lbs. - in.
HPB 2.92 5704 600 lbs. - in.
HPB .584 - 2.92 4647 200 lbs. - in.
HMB 3.5 - 10 All Models 1200 lbs. - in.
HLB 10 - 50 4729, 5548 900 lbs. - in.
HLB 10 - 50 5592 2000 lbs. - in.
HXB 70 4980 4000 lbs. - in.
HXB 100 4980 6500 lbs. - in.
HXB 147.5 - 200 4980 7000 lbs. - in.