Stainless Steel Check Valve (SS-09)

SKU:
 SS-9

Stainless Steel Check Valve (SS-09)

Super Mico Flow & VOC Sampling Stainless Steel Waterra foot valve (inertial pump) uses 1/4" OD Tubing.

Recomended tubing: 1/4 OD
HDPE (High Density Poly)
LDPE (Low Density Poly)
FEP (Teflon)

The Foot Valve System is a simple, inexpensive way to sample a monitoring well in four steps.

  1. A Foot Valve is attached the bottom end of a length of tubing.
  2. The Foot Valve/Tubing combo is inserted into the well, Foot Valve first, until the valve is submerged beneath the water table to the desired pumping depth.
  3. The tubing is then oscillated (pulled up and then pushed down) over a short vertical range of motion either by hand or with a Tubing Actuator.
  4. Water builds up in the oscillating tubing until it discharges at surface.
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$26.90
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  • Description
    Super Mico Flow & VOC Sampling Stainless Steel Waterra foot valve (inertial pump) uses 1/4" OD Tubing. Recomended tubing: 1/4 ODHDPE (High Density Poly)LDPE (Low Density Poly)FEP (Teflon) The Foot Valve System is a simple, inexpensive way to sample a monitoring well in four steps. A Foot Valve is attached the bottom end of a length of tubing. The Foot Valve/Tubing combo is inserted into the well, Foot Valve first, until the valve is submerged beneath the water table to the desired pumping depth. The tubing is then oscillated (pulled up and then pushed down) over a short vertical range of motion either by hand or with a Tubing Actuator. Water builds up in the oscillating tubing until it discharges at surface.
  • Data Sheets

Super Mico Flow & VOC Sampling Stainless Steel Waterra foot valve (inertial pump) uses 1/4" OD Tubing.

Recomended tubing: 1/4 OD
HDPE (High Density Poly)
LDPE (Low Density Poly)
FEP (Teflon)

The Foot Valve System is a simple, inexpensive way to sample a monitoring well in four steps.

  1. A Foot Valve is attached the bottom end of a length of tubing.
  2. The Foot Valve/Tubing combo is inserted into the well, Foot Valve first, until the valve is submerged beneath the water table to the desired pumping depth.
  3. The tubing is then oscillated (pulled up and then pushed down) over a short vertical range of motion either by hand or with a Tubing Actuator.
  4. Water builds up in the oscillating tubing until it discharges at surface.