Abstract: A system is provided for removing dissolved metals from industrial wastewater by electrocoagulation. The system includes an electrocoagulation reactor with a DC power supply having an insulation support enclosure with positive and negative electrode plates disposed thereon. The electrode plates are insulated for each other but remain in direct contact with the wastewater as it flows between the electrodes. The DC power supply induces opposite charges on alternate electrodes thereby generating an electric field between adjacent electrodes to cause the electrodes to ionize and go into solution for interaction with the contaminants in the wastewater as it flows through the reactor. The reactor is housed in a pressure vessel container so the exterior pressure on the reactor is higher than its internal pressure preventing leakage of fluids and oxygen and hydrogen gases produced in the reactor by decomposition of water.

Abstract: A process and device for rehabilitating old pipelines laid in the ground is described. The extent of above-ground prefabrication of a hose-shaped lining for the old pipeline is increased and a closed system for guiding a heatable pressure medium is described. Above-ground, a calibration hose (4) is inverted into the flat-lying lining hose (6) or a lining hose (6) is inverted into a tubular film using compressed air. The lining hose (6), which is provided with the calibration hose (4) and with the tubular foil, is drawn through a shaft into the old pipeline and by means of a heatable pressure medium, which circulates in a closed system, is pressed against the interior wall of the old pipeline and is kept in this position until the resin of the lining hose has hardened. With the process, underground sewer pipes are rehabilitated.

Abstract: A pipeline pigging device including a vehicle movable within a pipeline having shape deformations is provided. The vehicle provides a predetermined axial length and outside diameter to define an exterior surface. A plurality of floating backing bar systems are circumferentially mounted on the external surface along the axial length of the vehicle. The floating backing bar system radially extends by a compression force away from the vehicle to contact and introduce a consistent force on the inside pipeline wall as the device moves through the pipeline.

Abstract: A plate stacker is described for use in the field of sample analysis. The plate stacker increases the rate and ease with which sample carriers such as microwell plates may be interfaced with an automated system and includes a removable rack attached to a base to allow plates to be transported to and from an automated system. The stacker rack includes a door which allows for a compact stacker thus allowing manipulation of the microwell plates in a compact area. Generally, the plate stacker provides a means to allow a user to interface with an automated system. The rack portion of the stacker allows the user to load and unload microwell plates into the system in batches by loading or unloading multiple individual plates into or out of the rack. The base portion allows the automated system to load and unload individual microwell plates from the stacker.