A liner having an outer surface coated with a fluid absorbing coating is cladded to a tubing string by inserting the folded liner into the tubing string and then unfolding the liner against the tubing string. The liner may be a long single thin foil corrosion resistant liner coated with a sticky glue and a hygroscopic and/or other fluid absorbing coating to absorb fluid pockets trapped between the tubing and liner and inhibit corrosion and leakage of, the elongate tubing string.

An herb cutter having interchangeable grates and matching blades that includes a top chamber for holding herbs before cutting, a bottom chamber for holding herbs after cutting, and a grate positioned between the chambers is disclosed. The grate has multiple slots, each with at least one sharp or serrated edge. A rotatable rod extends across the grate, with a crank and handle connected to it. Multiple blades are attached to the rod, fitting within the slots to cut the herbs when the handle, crank, and rod are rotated. The slots and blades have corresponding lengths. The grate is a circular plate, and each blade is serrated with a central hole fitted about the rod. The cutter also includes spacers separating the blades, a middle shell and a lower funnel retaining the grate, and a lid covering the top chamber. The grate and blades are interchangeable.

A carrier pipe is protected from corrosion by being received inside a casing at a location above ground. The casing, which can be formed from a polymer, defines a gap extending around an exterior surface of the carrier pipe. In one embodiment, the gap is substantially filled with a potting material having a corrosion-resistant property. In another embodiment, a self-contained impressed current cathodic protection system is received in the gap. A pull head is installed on the carrier pipe and/or casing for pulling the pipe assembly, including carrier pipe, casing, and elements received in the gap, into an underground bore as a single unit. In some embodiments multiple pipe assemblies are pulled together into the same bore.

A method for lining at least a portion of the inner wall of an upstanding tubular includes inserting a liner sleeve into the tubular. The liner sleeve includes a sleeve of flexible sheet material impregnated with and/or coated with a curable polymer composition. The liner sleeve is held in a tubular and a liner sleeve locating tool is inserted into the tubular and inside the liner sleeve. Operating the liner sleeve locating tool holds the outer surface of the liner sleeve in contact with the inner surface of the tubular; and curing the polymer composition bonds the liner sleeve to the inner wall. Alternatively the liner sleeve may be filled with fluid to hold its outer surface in contact with the tubular to allow curing and bonding

A liner having an outer surface coated with a fluid absorbing coating is cladded to a tubing string by inserting the folded liner into the tubing string and then unfolding the liner against the tubing string. The liner may be a long single thin foil corrosion resistant liner coated with a sticky glue and a hygroscopic and/or other fluid absorbing coating to absorb fluid pockets trapped between the tubing and liner and inhibit corrosion and leakage of, the elongate tubing string.

A method lays lined pipeline which actively and successfully removes air pockets which might be trapped in the annulus between the liner and the host pipe by progressively flooding the lined pipeline. Further, the liner is brought into closer contact and engagement with the host pipe. The removal of air in the annulus enables the pipeline test pressure to stabilize more quickly and avoids the risk of potential collapse during operational service life in the event the pipeline pressures fluctuate or a vacuum is created during an emergency shutdown.

Embodiments of a method and a mold for producing a concrete pipe comprising a basic body made of concrete and a plastic inner pipe for conducting a liquid. The method comprises introducing a mold core into the plastic inner pipe, introducing the plastic inner pipe into an outer mold and pouring concrete into an intermediate space between the outer mold and the plastic inner pipe to form the basic body. After the concrete has solidified, the plastic inner pipe remains as inner formwork in the basic body made of concrete and the mold core is removed.

A carrier pipe is protected from corrosion by being received inside a casing at a location above ground. The casing, which can be formed from a polymer, defines a gap extending around an exterior surface of the carrier pipe. In one embodiment, the gap is substantially filled with a potting material having a corrosion-resistant property. In another embodiment, a self-contained impressed current cathodic protection system is received in the gap. A pull head is installed on the carrier pipe and/or casing for pulling the pipe assembly, including carrier pipe, casing, and elements received in the gap, into an underground bore as a single unit. In some embodiments multiple pipe assemblies are pulled together into the same bore.

Disclosed is a method (200) of assembling a vessel overboard discharge assembly (600), the method (200) comprising: inserting (210) a tubular insert (500) into an overboard discharge pipe (300) so that a space (400) is defined between the tubular insert (500) and the overboard discharge pipe (300): blocking (221) an outboard opening (401) into the space (400) at an outboard end (301) of the space (400): and providing (280) in the space (400) an adhesive (450) and/or chocking material (450) for adhering and/or chocking the tubular insert (500) in the overboard discharge pipe (300).

The present invention relates to an inner anticorrosive and abrasive resistant coating (10) for steel pipes (1) used for the transport of fluids. The coating includes: a layer of epoxy resin (2) having free hydroxyl groups, which are applied directly to the inside 1a of the steel pipe (1); a layer of thermoplastic adhesive (3) applied directly onto the layer of epoxy resin; and a layer polyethylene (4), which is applied directly onto the layer of thermoplastic adhesive.