Abstract: A corrosion inhibitor for use in aqueous fluids, e.g. brine, which contact a metal surface, contains a blend or cross-linked reaction product of a main chain type polybenzoxazine (MCTPB) and a chitosan component selected from the group consisting of chitosan, chitosan glycol, and combinations thereof. The MCTPB can be made by reacting formaldehyde, bisphenol A, and tetraethylenepentamine (TEPA). The corrosion inhibitor may contain a small amount of an inorganic acid and/or an organic acid.

Abstract: A corrosion inhibitor for use in aqueous fluids, e.g. brine, which contact a metal surface, contains a blend or cross-linked reaction product of a main chain type polybenzoxazine (MCTPB) and a chitosan component selected from the group consisting of chitosan, chitosan glycol, and combinations thereof. The MCTPB can be made by reacting formaldehyde, bisphenol A, and tetraethylenepentamine (TEPA). The corrosion inhibitor may contain a small amount of an inorganic acid and/or an organic acid.

Abstract: Optical fiber sensor systems for monitoring environmental impacts in downhole systems are provided. The optical fiber sensor systems include an optical fiber arranged along a downhole tool, the optical fiber having a first end and a second end, a light source coupled to the first end of the optical fiber and configured to project light into and along the optical fiber, a photodetector coupled to the first end of the optical fiber and configured to monitor light reflected along and through the optical fiber, and at least one sensing element arranged on the optical fiber, the at least one sensing element arranged to change a light property of the optical fiber, wherein a change in the light property of the optical fiber occurs based on exposure of the at least one sensing element to an environment of a region of interest.

Abstract: A corrosion inhibitor for use in aqueous fluids, e.g. brine, which contact a metal surface, contains a blend or cross-linked reaction product of a main chain type polybenzoxazine (MCTPB) and a chitosan component selected from the group consisting of chitosan, chitosan glycol, and combinations thereof. The MCTPB can be made by reacting formaldehyde, bisphenol A, and tetraethylenepentamine (TEPA). The corrosion inhibitor may contain a small amount of an inorganic acid and/or an organic acid.

Abstract: A sample array includes a substrate, a corrosion proxy coupled to the substrate, and at least one test sample coupled to the substrate. The corrosion proxy is formulated and configured to relate to corrosion of material near the sample array. The at least one test sample is formulated and configured to measure at least one of a physical property and a chemical species. A method of characterizing corrosive conditions includes providing a sample array in a subterranean formation, analyzing the corrosion proxy to estimate corrosion, and analyzing the at least one sample to determine a at least one property selected from the group consisting of a physical property and a concentration of a chemical species. Some methods include correlating a location in a borehole with corrosion and at least one of a physical property and concentration of a chemical species.

Abstract: A sensor system for monitoring downhole corrosion may include a first test sample and a second test sample for measuring corrosion conditions and collecting data related to the corrosion conditions and an electronic circuit. The electronic circuit may include a measuring device for analyzing the first test sample and the second test sample and to obtain corrosion data related to the corrosion conditions and a communication module for transmitting the corrosion data related to the corrosion conditions to a surface above the borehole. A multi-borehole monitoring system may include a plurality of sensor systems disposed in a plurality of boreholes and a monitoring module. The monitoring module may analyze the corrosion data, to manipulate the corrosion data, and to produce a visual representation of the corrosion data. Methods of monitoring corrosion downhole may include receiving the corrosion data at the multi-borehole monitoring system from the plurality of plurality of sensor systems.