Buy Penberthy Emerson LL Series Eductors HERE!
Features of Emerson Penberthy Jet Pumps (Eductors)
• Simple design with no moving parts to wear out. • No lubrication required.
• Virtually maintenance-free.
• Easy to install without special structures or foundations.
• Self-priming.
• Cast, fabricated or non-metallic constructions.
• Variety of materials to suit specific characteristics of the process liquids.
• Critical flow paths machined smoothly with
no abrupt turns or steps, producing the most efficient flow during the motive function.
Suitable for a broad range of applications
including: handling condensate, pumping
wells, circulating solutions, emptying
cesspools, pumping brine solutions, extracting
solvents, draining cellars, pumping out
barges, acidifying, causticizing oils, producing
emulsions,elevation water.
• Simple design with no moving parts to wear out. • No lubrication required.
• Virtually maintenance-free.
• Easy to install without special structures or foundations.
• Self-priming.
• Cast, fabricated or non-metallic constructions.
• Variety of materials to suit specific characteristics of the process liquids.
• Critical flow paths machined smoothly with
no abrupt turns or steps, producing the most efficient flow during the motive function.
General Application
Technical Data
Materials: Bronze, iron, carbon steel, 316 SS, PVC, CPVC, PP, PVDF
Sizes: 1⁄2” to 12”
Pressure range: 15 to 200 psig (1 to 13.8 barg)
Temperature(max): 200°F(93°C)
Materials: Bronze, iron, carbon steel, 316 SS, PVC, CPVC, PP, PVDF
Sizes: 1⁄2” to 12”
Pressure range: 15 to 200 psig (1 to 13.8 barg)
Temperature(max): 200°F(93°C)
 |
| Emerson Penberthy LL Series Jet Pump |
| Size (Inches) |
Emerson Bronze LL (Low Head) Series Eductors / Jet Pumps |
| 1/2A | LL-4ABZ |
| 1/2B | LL-4BBZ |
| 1/2 | LL-04BZ |
| 3/4 | LL-06BZ |
| 1 | LL-08BZ |
| 1 1/4 | LL-10BZ |
| 1 1/2 | LL-12BZ |
| 2 | LL-16BZ |
| 2 1/2 | LL-20BZ |
| 3 | LL-24BZ |
| 4 | LL-32BZ |
| Size (Inches) |
Emerson Penberthy Cast Iron LL (Low Head) Series Eductors / Jet Pumps |
| 1/2A | LL-4AIR |
| 1/2B | LL-4BIR |
| 1/2 | LL-04IR |
| 3/4 | LL-06IR |
| 1 | LL-08IR |
| 1 1/4 | LL-10IR |
| 1 1/2 | LL-12IR |
| 2 | LL-16IR |
| 2 1/2 | LL-20IR |
| 3 | LL-24IR |
| 4 | LL-32IR |
| Size (Inches) |
Emerson Penberthy Carbon Steel LL (Low Head) Series Eductors / Jet Pumps |
| 1/2A | LL-4ACS |
| 1/2B | LL-4BCS |
| 1/2 | LL-04CS |
| 3/4 | LL-06CS |
| 1 | LL-08CS |
| 1 1/4 | LL-10CS |
| 1 1/2 | LL-12CS |
| 2 | LL-16CS |
| 2 1/2 | LL-20CS |
| 3 | LL-24CS |
| 4 | LL-32CS |
| Size (Inches) |
Emerson Stainles Steel LL (Low Head) Series Eductors / Jet Pumps |
| 1/2A | LL-4ASS |
| 1/2B | LL-4BSS |
| 1/2 | LL-04SS |
| 3/4 | LL-06SS |
| 1 | LL-08SS |
| 1 1/4 | LL-10SS |
| 1 1/2 | LL-12SS |
| 2 | LL-16SS |
| 2 1/2 | LL-20SS |
| 3 | LL-24SS |
| 4 | LL-32SS |
Jet Pumps for Pumping Liquids up to 50 psi discharge head pressure
Operation for Penberthy Emerson Liquid Jet Pumps
All Emerson jet pumps operate on the principle of a fluid entraining a second fluid. Although design and construction may vary, this applies to all jet pumps.
All Emerson jet pumps have three common features: inlet, suction and discharge. They function as follows:
Inlet - The operating medium (liquid or steam) under pressure enters the inlet and travels through the nozzle into the suction chamber. The nozzle converts the pressure of the operating medium into a high velocity stream, which passes from the discharge side of the inlet nozzle.
Suction - Pumping action begins when vapor, gases or liquid in the suction chamber are entrained by the high velocity stream emerging from the inlet nozzle, lowering the pressure in the suction chamber. The resulting action causes the liquid, gas or vapor in the suction chamber to flow toward the discharge.
Discharge - The entrained material from the suction system mixes with the operating medium and acquires part of its energy in the parallel section. In the diffuser section, part of the velocity of the mixture is converted to a pressure greater than the suction pressure, but lower than the operating medium pressure.
Buy Penberthy Emerson LL Series Eductors HERE!
ALL Penberthy Emerson Jets can be found HERE!
All Emerson jet pumps operate on the principle of a fluid entraining a second fluid. Although design and construction may vary, this applies to all jet pumps.
All Emerson jet pumps have three common features: inlet, suction and discharge. They function as follows:
Inlet - The operating medium (liquid or steam) under pressure enters the inlet and travels through the nozzle into the suction chamber. The nozzle converts the pressure of the operating medium into a high velocity stream, which passes from the discharge side of the inlet nozzle.
Suction - Pumping action begins when vapor, gases or liquid in the suction chamber are entrained by the high velocity stream emerging from the inlet nozzle, lowering the pressure in the suction chamber. The resulting action causes the liquid, gas or vapor in the suction chamber to flow toward the discharge.
Discharge - The entrained material from the suction system mixes with the operating medium and acquires part of its energy in the parallel section. In the diffuser section, part of the velocity of the mixture is converted to a pressure greater than the suction pressure, but lower than the operating medium pressure.
Buy Penberthy Emerson LL Series Eductors HERE!
ALL Penberthy Emerson Jets can be found HERE!
Anderson-Bolds
216-360-9800
www.anderson-bolds.com
Low Head Series LL Emerson Penberthy Jet Pumps Eductors
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