The present disclosure relates to compositions and methods for the removal of deposits from oilfield apparatus and wellbore surfaces. In particular, removal of deposits comprising heavy hydrocarbon materials and finely divided inorganic solids. The composition includes a mixture of a corrosion inhibitor component which is morpholine or a morpholine derivative having corrosion inhibitor properties, and a surfactant which is a quaternary ammonium compound having biocidal properties. Methods of removing a deposit from a surface or unplugging an oilwell which has been plugged with a deposit, are also included wherein the method comprising contacting the deposit with a composition as disclosed herein for a selected period of time.

A composition that penetrates surfaces of equipment for use with an uncured cementitious material, such as uncured concrete includes an aqueous solution with colloidal silica. Pretreatment of a surface with such an aqueous solution may reduce or eliminate adhesion of uncured cementitious material to the surface. A composition that cleans hardened and/or cured cementitious material from the surfaces of such equipment also includes an aqueous composition with colloidal silica. Hardened and/or cured cementitious material may be removed from equipment surfaces by applying the hardened and/or cured cementitious material with the aqueous solution to soften the cementitious material and optionally abrading the softened cementitious material to mechanically remove the same from the equipment surfaces. Systems for removing hardened and/or cured cementitious material from the surfaces of equipment capable of use with uncured cementitious material include an aqueous solution with colloidal silica and a mechanical removal component.

A method for cleaning and coating a tip of a test probe in an integrated circuit package test system is provided. The method includes 1) saturating a brush tip comprising nonporous bristles with a solution of phosphonic acid; 2) applying the solution of phosphonic acid to the tip of the test probe with the brush tip to coat the tip of the test probe with the solution of phosphonic acid; and 3) allowing the solution of phosphonic acid to dry on the tip of the test probe and form a self-assembled monolayer of phosphonates thereon.

The present invention relates to a method, a system, and a kit of parts for cleaning a surface contaminated with a hazardous drug or a hazardous drug related product, which involves cleaning in succession with a quaternary ammonium solution followed by an isopropyl alcohol solution.

The invention relates to a method for cleaning a phosgene conducting apparatus, comprising: washing the apparatus with hot inert gas, followed by washing the apparatus with cold inert gas; conveying gaseous ammonia for breaking down phosgene residues with a continuous increase in temperature until a maximum temperature ranging between 30 C. to 120 C. is reached; once the maximum temperature is reached, shutting down the ammonia supply and the conveying of inert gas, optionally (and preferably) followed by washing the apparatus with an aqueous stream.

The present disclosure provides methods and systems of generating flows of detergent through a turbine engine to effectuate cleaning of components thereof. The methods include introducing a foamed, acid-including detergent with a pH range of between 2 and 7 into a gas flowpath of the turbine engine. The methods also include creating a pressure differential in an aft portion of the gas flowpath with respect to a forward portion of the gas flowpath to generate a flow of the detergent therethrough. The methods further include creating a pressure differential in a forward portion of the gas flowpath with respect to an aft portion of the gas flowpath to generate a counterflow of the detergent therethrough. The flow and counterflow of the detergent through the gas flowpath interact with components of the turbine engine having foreign material thereon to at least partially remove the foreign material therefrom.

A method of performing a cleanup service on an internal combustion engine. The method involves draining used fleet oil from the engine, filling the engine with cleanup oil, draining the cleanup oil after an operation interval, and filling the engine with fresh fleet oil. The method can be performed as a remedial measure for an engine already exhibiting high oil consumption, or as a preventative measure on a healthy engine.

The invention relates to a process for removing red oils deposits formed in an installation comprising the use of a cleaning agent comprising one or more fatty acid esters to dissolve the red oils deposit and to form a mixture comprising the cleaning agent and the dissolved red oils; and removing the mixture comprising the cleaning agent and the dissolved red oils.

The present invention relates to a liquid cleaning composition can be a cleaning composition for removing an acrylic-based polymeric material useful as enteric tablet coatings located on a surface of a vessel or other process equipment comprising: diethylen glycol mono butylether; and water.

The present invention relates to a process for removing the fouling deposited in a milk processor unit after a thermal processing of milk or a food product including milk at a T between 80 C. and 150 C. for at least 4 hours, including said fouling proteins, lactose, minerals and products formed therefrom, comprising the step of applying a cleaning solution on said fouling deposited in the milk processor unit. The present invention further relates to a cleaning solution for removing the fouling deposited in a milk processor unit.