Detail Engineering of                                                          Microbiologically Influenced Corrosion
Piping Systems                                                                 (MIC) in Engineering Terms NEW!

PD410                                                                          PD778

Detail engineering in piping projects consists of the engineering,             Microbiologically In uenced Corrosion (MIC) concerns the in uence         D E S I G N A N D M ATE R I A L S Public Courses
design, detail and layout of process and utility equipment, piping and         of micro-organisms in the corrosion of metals. This three-day course
instrumentation. This three-day course provides participants with              explores how different systems become vulnerable to MIC, as well the
the background required to design, engineer and complete piping                facts and “myths” in the recognition and treatment of MIC.
assignments.
                                                                               The course begins with a review of electrochemical corrosion, continues
This course should be of interest to people employed in any area that          with a definition and characterization of MIC, and an assessment
piping is present (Refinery, Chemical, Power, Pulp and Paper, Utility, etc.).  of past and existing MIC theories. Participants discuss laboratory
The course introduces engineers, designers and construction personnel          and field methods employed to recognize MIC and their respective
to the various procedures involved in the development and engineering          treatment methods (physical-mechanical, chemical, electrical, magnetic
of Piping and Instrumentation Diagrams (P&ID s), Equipment Plot Plans,         and microbiological) for MIC. In addition, the course examines the
Piping Arrangements and Fabrication Drawings.                                  shortcomings of some techniques, such as smart pigging or cathodic
                                                                               protection, in the determination and mitigation of MIC.
Traditionally, there has been little formal training in this area and design
decisions often have to be made based on practical considerations              The course concludes with a review of industry myths about recognition,
without formulae or code reinforcement. Completing piping drawings             prevention, and mitigation of MIC. Students participate in five in-class
take up the majority of man-hours in the design of a process plant.            exercises, which allow them to share their experience, while acquiring
                                                                               more practical skills and knowledge about MIC.
Each participant will receive a copy of the book Detail Engineering and
Layout of Piping Systems, by Bob Wilson.                                       You Will Learn To

You Will Learn To                                                              • Explain the importance of routine recognition and treatment methods
                                                                               • Describe mitigation methods for microbial corrosion
• Describe pipe sizing                                                         • Estimate the required resources necessary to control MIC effectively
• Explain pressure drop calculations                                           • Discern MIC from other types of corrosion manifestations
• Describe the process of pump and equipment sizing and selection              • Describe the methods for materials selection and biocide control
• Describe the preparation of equipment specifications and drawings            • Explain MIC misconceptions and differentiate “myths” from “realities”
• Identify piping specifications                                               • Describe practices for the prevention and mitigation of MIC
• Explain the process of instrumentation and process control
• Describe the process of piping component familiarization, including          Who Should A end

  valves and fittings, piping hangers and supports                             This course is for engineers involved in corrosion, asset integrity,
                                                                               maintenance, or material selection. It is also valuable for pipeline
Who Should A end                                                               engineers, plant engineers, technical inspectors, principal and senior
                                                                               asset managers, and plant engineers.
Piping engineering and design personnel; engineers, designers, CAD
operators and draftspersons in the piping field; practicing engineers          Instructor Reza Javaherdashti
and designers who may have experience in related disciplines and               3 Days, 2.3 CEUs, 23 PDHs
wish to expand their knowledge of the piping area; piping fabricators,         Member 1,89 List Price 1,99
contractors and suppliers wishing to understand the relationship of
manufacture and fabrication to the design, layout and construction of
piping systems

Special Requirements

A series of workshops where attendees have an opportunity to produce
a P&ID and a number of Piping Isometrics c/w Bill of Material are part of
this course. As a result, attendees are required to bring the following
equipment

• Scale 3 8” 1 ft scale
• Circle template
• Calculator
• Drafting pencil and eraser

Instructor Bob Wilson
3 Days, 2.3 CEUs, 23 PDHs
Member 1,89 List Price 1,99

                             Visit go.asme.org/ENAcourses                                                                                                23