In-Pipe Technology LLC articles

In-Pipe now offers the IPTC(OH-), a hydroxyl radical based odor control option for Lift Stations and WWTP headworks that requires no chemicals, needs only a small footprint and uses minimal electrical power.

The IPTC(OH-) chemical free scrubber system connects to the existing lift station vent to oxidize hydrogen sulfide outside of the lift station environment in order to scrub odors before emission to ambient air and to prevent corrosion of the existing infrastructure.

The IP

Performance History and Discussion
The City of Jackson (COJ) and Jackson Water Partnership (JWP) selected In-Pipe Technology (IPT) in March 2010 to team with them and implement a beta test project. The principal purpose being to evaluate the microbial technology and benefits of the IPT professional services program for the Savanna WWTP Storm Cells.

In-Pipe Professional services include 100% natural soil microbes, Bio Reactor equipment installation and maintena

Fats are esters of fatty acids and glycerol which are normally solid at room temperature. Oils are esters of fatty acids and glycerol which are normally liquid at room temperature. Grease is a general term used to describe a soft or melted animal fat or a lubricant (Campbell, 1999). Collectively they are referred to as fats, oils, and grease (FOG).

The degradation of FOG that collects within the wastewater treatment system is critical for quality of life and economic reasons. Large

Performance History and Discussion
In-Pipe Technology Company, Inc. was selected with goals to improve the biological treatment capacity at the wastewater treatment plant (WWTP) without capital expansion of the current facility. Due to the inability to make a capital investment to expand unit operations and processes, a municipal treatment plant in Montemorelos can not meet the needs of a growing community resulting in a heavily overloaded plant. The plant is operated by

Biological Nutrient Removal (BNR) is critical for tie preservation of our lakes and streams. Large amounts of waste products are passed through our sewage treatment systems on a continuous basis. Nutrient loads discharged from these systems must be reduced to avoid eutrophication of the receiving waters. Microbes are aarticularly useful in biodegrading most of the com sounds treated by wastewater treatment plants, in particular carbonaceous, nitrogenous, and phosphoric compounds. They do this

Performance History and Discussion
Jackson, MS selected In-Pipe Technology Company, Inc. for the Savanna WWTP with goals to reduce the quantity of waste sludge for disposal and control FOG in the collection system and at the plant. Jackson, the capital and largest city in Mississippi, was looking for ways to reduce sludge expenses from polymer to hauling and disposal fees.

In-Pipe was first introduced in Jackson on a limited basis beginning in 2002 for the pur

Project Summary
The Huntington wastewater treatment plant (WWTP) on Long Island, New York is challenged with improving its nitrogen removal efficiency in order to maintain compliance with ever-tightening restrictions on discharge loads. In order to meet this challenge the town initiated a collection system bioaugmentation program with the primary objectives of enhancing the nitrogen removal performance (particularly cold weather performance) and improving the overall ope

Introduction
The City of Spring Valley, IL was seeking bioaugmentation to reduce the economic burden of sludge dredging and disposal and to evaluate the possibility of restoring the microbiological activity in the lagoon. The lagoon was flooded several times from the near-by Illinois River, which created different strata of inorganic silt/organic sludge and densely packed sludge at the lagoon bottom. The WWTP consists of an aerated lagoon that receives primary clarifier

Performance History and Discussion
The City of Neptune Beach chose In-Pipe Technology to improve effluent quality and reduce operating expenses at the WWTP. In-Pipe Technology adds high concentrations of live, heterotrophic bacteria into the collection system - transforming it into a pretreatment reactor. As a result, the incoming pollutant load is lower and the effectiveness of the treatment process is enhanced.

Over the first nine months of In-Pipe service,

Performance History and Discussion
The Farmington Water Pollution Control Authority (FWPCA) selected In-Pipe Technology to improve the performance of the WWTP by reducing sludge production and improving the nitrogen removal efficiency of the treatment process. Additional benefits of In-Pipe service include improving effluent water quality, reducing energy consumption at the plant and protecting the collection system by removing fats, oil and grease (FOG) and controlling