A sewer cleaning nozzle is provided for attachment to a hose for supplying cleaning fluid through the hose to a number of nozzle tips carried on the nozzle body for providing a sweeping action for material collected in the sewer pipe as the nozzle is pulled forwardly by pulling on the supply hose. The nozzle body includes a central pipe portion and a rearwardly mounted chamber portion attached to the pipe portion. The chamber portion defines a radial front face carrying a plurality of nozzle tips at angularly spaced positions. A conical deflector within the chamber deflects cleaning water along the pipe portion outwardly of the chamber to a curved wall portion of the chamber causing the water to move smoothly around the chamber forwardly to the nozzle tips. Further nozzle tips are provided on the pipe portion having a reduced outward angle relative to the nozzle tips on the front face. A plurality of fins are attached to the pipe portion and the chamber lying in axial planes of the pipe portion with each fin being located between two of the nozzle tips. The fins are solid and imperforate and have inner edges immediately adjacent the chamber portion and the pipe portion.

A process of filling an underground natural gas pipeline and similar pipelines with an inert foam to render the pipeline unusable. Pipelines which are no longer in service must be properly be abandoned in a manner acceptable to the United States Environmental Protection Agency. The pipeline is cut at periodic intervals to create a shorter pipe and small sections of pipe are removed. An electrical or plumber's snake or similar device is passed through the pipe between the cuts to ensure that a clear path exists. A dual hose is then pulled through the pipe from a first opening to a second opening and a mixing device having a mixing head and a static mixing tube is then attached to the hoses. The chemicals needed to produce the foam are then pumped through the hoses. The hoses are then pulled back to the first opening as the mixed chemicals are pumped through the mixing head. The mixed chemicals react with each other to create an inert foam. Sufficient chemicals are pumped into the pipeline and reacted to fill the pipeline to more than 50% of the pipeline volume with the inert foam to a density of about 2 pounds per cubic foot.

The device serves for eliminating deposits (52) in ventilation ducts (14) in the stationary or non-stationary operating mode. The cleaning medium is a fluid sprayed out under high pressure from a spray head (3). The spray head (3) is carried by a supply pipe (2), through which lead the drive shaft coming from a motor (1) and a fluid channel. In the non-stationary operating mode, the device is integrated into a slide (15) which is pulled through the ventilation duct (14). The slide (15) is introduced into the ventilation duct (14) through an inspection port sealable by means of an inspection cover. Ventilation ducts (14) extending horizontally, vertically and obliquely can be treated. In the stationary operating mode for cleaning an inlet or outlet, a bend or a branch and, for example, also a vapour extractor, the device is held without a slide (15) in a supporting cover which is inserted into the inspection port.

A nozzle system comprising a nozzle connected to a first supply conduit having an enclosed second supply conduit. The first supply conduit at the proximal end is connected to a first source of medium while the second supply conduit at the proximal end is connected to a second source of medium. The first supply conduit at the distal end is connected to nozzle openings that discharges first medium which propels said nozzle system through a pipe line and removes debris from said pipe line. The second supply conduit at the distal end is connected to a nozzle sprayer that discharges a second medium directed forward from the first supply conduit.

The present invention relates to the application of a coating to a pipeline, FPS (Fire Protection System) or to pipe stock from which a pipeline is fabricated. A composition which when applied to the inside surface of the pipe prevents either chemical corrosion or microbiologically influenced corrosion is disclosed. Also disclosed is a method for utilizing this material to protect both existing pipelines and the raw stock used to construct pipelines and various apparatus for applying a coating of the composition, cleaning, and maintenance of the passive coating. Also disclosed is a method to recycle the composition to be used in other industrial pacification processes. The composition, methods, and apparatus are environmentally friendly and eliminate the need to use poisonous, environmentally damaging biocides currently used in the prevention of microbiologically influenced corrosion (MIC) in FPS, water treatment, nuclear, petroleum and natural gas transportation pipelines, and various processing equipment within industry.