A multi-probe sender may include a multi-probe having a reed switch arrangement in which reed switches form a level-sensitivity obtaining interval at which a value overlap is prevented in consideration of a resistance-value tolerance range, and having a probe layout forming an intersection interval at which value interference is prevented in consideration of an interval overlap of the reed switches.

A fuel pump assembly includes an attachment section and a pump housing. The attachment section includes an upper telescoping section having an outer portion and a support rod that extends into the outer portion for telescoping movement with respect thereto. The support rod further extends downward from the outer portion. The pump housing is supported to a lower end of the support rod of the attachment section. The upper telescoping section of the support rod is configured such that the pump housing is movable between a first position and a second position, such that in the first position the pump housing is retained by the upper telescoping structure a first distance away from the attachment section and in the second position the pump housing is located a second distance away from the attachment section. The first distance is greater than the second distance.

A fuel sender assembly having a housing, a first positioning mechanism, a second positioning mechanism and a sender unit. The first positioning mechanism contacts an outer surface of the housing and is movable in a first direction relative to the housing. The first positioning mechanism is further configured to retain the sender unit in any one of a plurality of positions relative to the outer surface of the housing. The second positioning mechanism includes a first part and a second part. The first part is attached to the first positioning mechanism. The second part is coupled to the first part such that the second part is movably positionable relative to the first part in a second direction perpendicular to the first direction. The sender unit is connected to the second part.

A method for installing a device into a crude oil service operation, the method may include installing the device into a section of the crude oil service operation, wherein the device comprises a surface comprising a bonded layer coating, and may also include contacting the surface with the contaminant, wherein the contaminant is selected from the group consisting of paraffins and asphaltenes, and wherein the bonded layer is a molecularly bonded layer or a covalently bonded layer. Various systems include one having a liquid environment of paraffins and asphaltene, and a surface residing within the environment comprising a bonded layer composition. Systems also include pipelines and vessels having an internal surface therein comprising a bonded layer composition, and with hydrocarbon liquids present in the pipeline or vessel.

A device having cooperating surfaces, method of treating cooperating surfaces of a device, and method of installing device having cooperating surfaces, wherein the device may include a first cooperating surface and a second cooperating surface, and wherein the first and second surfaces form cooperating surfaces, and wherein at least one of the surfaces comprises a Self-Assembled Monolayer of Phosphonate (SAMP). The method of treating cooperating surfaces includes applying a coat of a Self-Assembled Monolayer of Phosphonate (SAMP) composition to at least one of said cleaned and dried surfaces. The method of installing may include installing said device into a section of a crude oil service operation.

A level sensor, method of treating cooperating surfaces of a level sensor, and method of installing a level sensor, wherein the level sensor may include an elongated tube having an outer surface, and a float carrier having an inner surface, and wherein the outer surface and the inner surface form cooperating surfaces, and wherein at least one of the surfaces comprises a Self-Assembled Monolayer of Phosphonate (SAMP). The method of treating cooperating surfaces includes applying a coat of a Self-Assembled Monolayer of Phosphonate (SAMP) composition to at least one of said cleaned and dried surfaces of said tube and float carrier to form treated components. The method of installing may include installing said level sensor into a section of a crude oil service operation.

A method and kit for treatment of a stainless steel or other nickel alloy component utilized in a crude oil service operation including cleaning a surface of the component to remove surface contamination; drying the cleaned surface of the component; applying a coat of Self-Assembled Monolayer of Phosphonate (SAMP) to the cleaned and dried surface of the component to form a treated component; and installing the treated component into a section of a crude oil service operation. The coating reduces paraffin/asphaltene deposition on the component. The kit includes a cleaner wipe impregnated with a cleaning substance for cleaning the component; a nano-coating wipe impregnated with a SAMP for applying a nano-coating of the SAMP to the component; and instructions for treating said component utilizing the cleaner wipe and the nano-coating wipe.

Methods for precipitating solids comprising asphaltenes and/or paraffins that may include precipitating the solid and contacting the solid with a surface comprising a Self-Assembled Monolayer of Phosphonate (SAMP) coating or alternatively may include precipitating the solid in the presence of such a surface. The method for treating a liquid containing contaminants comprising asphaltenes and/or paraffins may include inserting into the liquid, a surface as described above, or further coating surfaces within the liquid with a Self-Assembled Monolayer of Phosphonate (SAMP) coating.

A device having cooperating surfaces, method of treating cooperating surfaces of a device, and method of installing device having cooperating surfaces, wherein the device may include a first cooperating surface and a second cooperating surface, and wherein the first and second surfaces form cooperating surfaces, and wherein at least one of the surfaces comprises a monolayer. The method of treating cooperating surfaces includes applying a coat of a monolayer composition to at least one of said cleaned and dried surfaces. The method of installing may include installing said device into a section of a crude oil service operation.

Methods for precipitating solids comprising asphaltenes and/or paraffins that may include precipitating the solid and contacting the solid with a surface comprising a bonded layer coating or alternatively may include precipitating the solid in the presence of such a surface, wherein the bonded layer is a molecularly bonded layer or a covalently bonded layer. The method for treating a liquid containing contaminants comprising asphaltenes and/or paraffins may include inserting into the liquid, a surface as described above, or further coating surfaces within the liquid with a bonded layer coating.