Solinst 1.66" Bladder Pump Drop Tube Assembly

A Drop Tube Assembly allows samples to be obtained from greater depths then the standard 500 ft. (150 m) below grade for Solinst Bladder Pumps.

Features

  • Easily installed on existing pumps, even in the field
  • Places screened filter intake as deep as necessary to obtain sample
  • Pump is operated in same manner as those without drop tube
Your Price $190.00
Usually ships in 1-2 weeks
Solinst
Government and Educational PricingGovernment and Educational Pricing
Free Lifetime Tech SupportFree Lifetime Tech Support
ImagePart#Product DescriptionPriceStockOrder
Solinst 1.66" Bladder Pump Drop Tube Assembly103231 Model 407 drop tube assembly for bladder pump, 1.66"
$190.00
Usually ships in 1-2 weeks
Solinst 1.66" Bladder Pump Drop Tube Assembly
103231
Model 407 drop tube assembly for bladder pump, 1.66"
Usually ships in 1-2 weeks
$190.00
ImagePart#Product DescriptionPriceStockOrder
Solinst Single Line LDPE Tubing Spools 109490 Single line LDPE tubing, 0.375" ID x 0.5" OD, 100 ft. roll
$42.00
Usually ships in 1-2 weeks
Solinst Single Line LDPE Tubing Spools 109469 Single line LDPE tubing, 0.25" ID x 0.375" OD, 500 ft. roll
$159.00
Usually ships in 1-2 weeks
Solinst Single Line LDPE Tubing Spools
109490
Single line LDPE tubing, 0.375" ID x 0.5" OD, 100 ft. roll
Usually ships in 1-2 weeks
$42.00
Solinst Single Line LDPE Tubing Spools
109469
Single line LDPE tubing, 0.25" ID x 0.375" OD, 500 ft. roll
Usually ships in 1-2 weeks
$159.00
A Drop Tube Assembly allows samples to be obtained from greater depths then the standard 500 ft. (150 m) below grade for Solinst Bladder Pumps. The Drop Tube places the screened filter intake of the Pump as deep as necessary to access the sample zone desired.

The Drop Tube Assembly is easily installed on existing pumps, even in the field. Pumps are operated in the same manner as those without a Drop Tube, which maintains high sample integrity.
Questions & Answers
No Questions
Please, mind that only logged in users can submit questions

In The News

Climate, nutrients and the future of hypoxia in a Chesapeake Bay tributary

The Chesapeake Bay is the site of recurring seasonal dead zones: areas of low dissolved oxygen where aquatic life struggles to survive if it can at all. In 2020, a dead zone in the Maryland portion of the bay was one of the smallest since 1985, when record keeping began. The hypoxic area in the Virginia portion of the bay was smaller and briefer than many years previous. But the problem isn’t gone yet, and looking forward, climate change will play a big role in determining the size and severity of dead zones throughout the bay. It could make it harder to get hypoxia under control in some places.

Read More

Fecal bacteria rises with sea level on Texas beaches

As climate change lifts the sea level in the Gulf of Mexico, it’s lifting levels of enterococci bacteria on Texas’s beaches, too. New research out of the Gulf shows that high levels of enterococci bacteria, which come from humans and other animals and can cause disease, are correlated with proximity to large human populations and sea level rise and are increasing over time. The research highlights an area of growing concern for public health and safety on popular recreational beaches. While sea level is projected to continue rising, it’s not a guarantee that bacteria levels will as well.

Read More

Wildfire smoke alters a lake's ecology from the top to the bottom of the food chain

Wildfires have been big news the last couple of years. Australia’s wildfires in 2019 and 2020 made headlines around the world. The American west has had record-breaking burns in recent years, blanketing cities in dangerous amounts of smoke and sending haze across the continent to the east coast. For smoke's clearly apparent effects in the sky, new research finds it changed the ecology of Castle Lake, a freshwater lake in California, in 2018. “There are some studies that have analyzed the effect of human health in respiration with the smoke of wildfire,” said Facundo Scordo, a postdoctoral researcher at the Global Water Center of the University of Nevada—Reno.

Read More