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Coal tar enamel coating systems. Recommended physical property requirements, surface preparation, application, inspection & repair practices.
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Inspection of deaerator system welds. Boiler feedwater deaerator cracking. Design and fabrication of vessels and repair of existing vessels. Operational and water chemistry parameters.
HISTORICAL DOCUMENT. This NACE Standard establishes material requirements for resistance to sulfide stress cracking (SSC) in sour refinery process environments, i.e., environments that contain wet hydrogen sulfide (H2S). It is intended to be used by refineries, equipment manufacturers, engineering contractors, and construction contractors.
HISTORICAL DOCUMENT. This NACE International test method describes a reliable methodology for determining the peel strength of polyolefin-based multilayer pipeline coating systems, generally for coating thickness less than 12 mm (0.47 in). This standard provides a method to measure the peel strength of polyolefin-based multilayer coating systems, such as 2-layer polyethylene coating [2LPE], 3-layer polyethylene [3LPE], 3-layer polypropylene [3LPP], and heat shrink sleeve[HSS] field joint coating. It provides essential information on the quality of the applied coating. This is particularly important for field-applied coatings, of which the application process is significantly impacted by the environmental conditions and the skill set of the field applicators. This test method is intended for use by pipeline operating companies, pipeline owners, pipeline contractors, pipeline inspection services companies, and pipeline coating mills.
The liquid petroleum internal corrosion direct assessment (LP-ICDA) method and its four steps: (1) pre-assessment, (2) indirect assessment, (3) direct examination, and (4) post assessment.
Developing a materials selection diagram (MSD) to document the materials selection of new equipment and piping for the refinery, process chemical, power, and other industries. HISTORICAL DOCUMENT
Maintaining the coating technical file (CTF) for ships to comply with the International Maritime Organization(IMO)’s “Performance Standard for Protective Coatings” (PSPC). File formats - electronic and paper. HISTORICAL DOCUMENT.
HISTORICAL DOCUMENT. Cracking in wet H2S petroleum refinery environments. Detection, repair, and mitigation of cracking of existing carbon steel refinery equipment.
Guidelines and a worksheet to be used in selecting nonmetallic seal materials for oilfield applications. Formalizes procedures for how chemical, thermal, and pressure conditions must be outlined.
Rubber-lining protection on new and in-service equipment. Recommended dimensions. Design considerations. Installation. Inspection. Repair.
There are an estimated 900,000 electric utility steel transmission and distribution structures in North America alone. The majority of these structures were installed between 1950 and 1990. These structures are now an average of about 45 years of age. The age of these structures dictates an inspection and assessment procedure to determine the level of corrosion affecting the above-grade atmospherically exposed portions of this important segment of our infrastructure.
Prior to the publication of this standard, no industry practice existed to help electric utilities determine a prioritized listing of structures to be inspected or that described an inspection and assessment procedure to evaluate above-grade atmospheric corrosion problems.
The objective of this standard practice is the development of a new external corrosion direct assessment (ECDA) data interchange data structure that will enable electronic integration of data and standardize reporting of ECDA data asso- ciated with indirect inspection data within the pipeline industry, to allow transfer between different software packages or computer systems. This is expected to minimize difficulty in using various programs to analyze or graph data and allow for comparison of data gathered for a given pipeline segment at different times, regardless of the software system used to collect it.