Extended reach sluicer systems, devices, and methods for breaking up and retrieving chemical, radioactive, hazardous materials and/or other waste and/or other material from storage tanks with mechanical arms and nozzles to break up and transfer tank material. And this invention can work with tanks having high temperature or low temperature conditions.

The invention proposes a system and a method for the selective extraction of viscous hydrocarbons from tanks and other containers. The system comprises the following components for heating the hydrocarbons: a steam ejector -3-, in which there takes place an eddy diffusion of its drive steam with the gases it aspirates by means of the Venturi effect, and a perimetric heating conduit -5- externally attached to the tank or container. The method comprises the following operations: heating a surface layer of hydrocarbons by means of the gases injected by the steam ejector, causing a selective flow of hot hydrocarbons to the perimetric conduit; localized heating of the hydrocarbons with the perimetric conduit, causing the precipitation of water and a selective flow of the hottest hydrocarbons to an extraction pump; and extracting the precipitated water and the hydrocarbons flowing selectively from the perimetric conduit by means of two pumps.

A mixing unit (1) for mixing a liquid product (2) includes a tank (3) and a fluid nozzle (4) configured to inject a fluid flow (6, 7) of the liquid product (2) into the tank (3). The fluid nozzle (4) has a first outlet (20) that opens in a sideways direction (S), a second outlet (21) that opens in an upward direction (U), and a valve plug (14) configured to selectively open and close the outlets (20, 21). The mixing unit (1) is operable in a low stage operational mode (9) during which the first outlet (20) is open, the second outlet (21) is closed, and mixing occurs in a lower region (10) of the tank (3), and a high stage operational mode (11) during which the first outlet (20) is closed, the second outlet (21) is open, and mixing occurs in an upper region (12) of the tank (3).

A fluid storage system includes a receptacle, configured to store a fluid, delimited by a sidewall and a bottom surface wherein the bottom surface has a degree of slope directing the bottom surface to an orifice. The system further includes an inlet pipe configured to transport the fluid from an oil rig to the receptacle, an outlet pipe configured to transport the fluid from the receptacle to the oil rig, an agitator having a shaft and a propeller, a jetting line equipped with a nozzle configured to release a jetting fluid towards the sidewall and the bottom surface of the receptacle, and an interlock switch configured to automatically shut off the agitator and the jetting line.

The present invention relates to a modular cleaning hydrocarbon storage tanks system, as well as a cleaning process which allows recovering crude oil from the waste sludge contained in the hydrocarbon storage tanks. Moreover, the present invention relates to the use of chemical mixtures applied during the hydrocarbon storage tanks cleaning process. The invention allows the recovery of crude oil from the waste sludge contained in said tanks.

The present invention relates generally to a method to determine one or more properties in a water storage facility and/or a water treatment facility. In one embodiment, the present invention relates to a method to determine one or more chemical and/or physical properties in a water storage facility vessel and/or a water treatment facility vessel and then use such one or more chemical and/or physical properties to determine where, if need be, any sand or other sediment needs to be removed from any such water storage facility vessels and/or a water treatment facility vessels.

A complete fuel tank maintenance and cleaning system. This apparatus and method are capable of effectively cleaning an underground or aboveground storage tank by implementing a multi-stage filtration and removal system, and effectively removing contaminants from tank surfaces by using the product or alternative as a streamed cleaning agent within the storage tank.

A fuel tank cleaning apparatus configured to remove sludge and prevent sludge accumulation in a fuel tank. A sludge collecting pipe lays horizontally along most of a length of a floor of the fuel tank. A plurality of openings penetrate the sludge collecting pipe along its length. The plurality of openings gradually increase in diameter along the length of the sludge collecting pipe to allow for uniform suction along the entire floor of the tank. A connecting elbow fluidly connects the sludge collecting pipe to a suction pipe. A pump is attachable to the suction pipe to create a suction at the bottom of the tank. The fuel tank cleaning apparatus may be positioned during the construction of the fuel tank, may be retrofitted into existing fuel tanks, or may be integrated into the floor of the fuel tank itself.

A tool for cleaning inside of a water tank utilizing a siphon action is provided in which a scraping tool (S) is pivotably provided at an upstream end of a suction pipe (P), a deposit (b) such as moss caked on a bottom face or a side face within the water tank is scraped off by a scraping blade (62) formed at an extremity of the scraping tool (S), and is removed by sucking up together with dirt (a).

Systems and methods are disclosed for inspection, maintenance, debris removal, and cleaning of environments that may be difficult to access and hazardous. The system comprises a mast assembly, an arm assembly, a debris removal system, and a drive system. The mast assembly comprises an inner mast and an outer mast having a central axis about which the arm assembly revolves. The arm assembly provides support for the debris removal system. The debris removal system comprises a bucket tool, a plow tool, and one or more hoses for clearing and removing debris. The drive system comprises a plurality of one or more of cables, pulleys, rollers, and hoists to at least one of control motion of the arm assembly, raise and lower the inner mast, and position and control at least one of the bucket tool and the plow tool. The system is at least one of manually or automatically controlled.