Instrumentation/Pressure Fittings Installation, Operation, & Maintenance Guides

Positions Available: Up to Three (3) Students Aircom is looking for up to three (3) students to join us for 80-hours each Two-to-eight (2-8) weeks to complete the project(s) Our Goal: To provide our customers with industry leading guides and manuals for temperature instrumentation and pressure fittings to help make installing, operating, and maintaining their equipment easier and to help meet current engineering best practices. The Challenge: Clearly communicate the life-cycle needs of the key Aircom products to their designers and users. Expected Project Execution: To research and produce a written and visual guide/manual for one of Aircom's key products with the guidance and supervision from Aircom. Project Options: Instrument Fitting Project Options: Thermowells Threaded Flanged Socket-Welded/Weld-In Velocity-Collar StrakeWell™ Quills Injection Sampling StrakeQuill™ Temperature Sensors Assemblies RTDs Thermocouples Manifolds/Bridles/Level-Chambers/Spool Pieces Cylinders Fittings

Instrumentation & Pressure Fittings IOM Guides/Manuals

To create written guidelines/manuals to help our customers with the full life cycle of instrumentation and pressure fittings. This includes but is not limited to selection, installation, operation, maintenance, and disposal. Instrumentation and Pressure Fittings: Thermowells (General/Velocity-Collar/StrakeWell/etc.) Quills (Injection/Sampling) Manifolds/Bridles/Level-Chambers/Spool Pieces Cylinders Fittings Sensor Assemblies (RTDs/Thermocouples)

Instrumentation Mechanical Engineering Analyses (Thermowells & Quills)

We are looking for engineering students to help us analyze the performance of some of our products. Examples are as follow: Mechanical analyses of thermowells installed in piping and vessels. Mechanical analyses of injection/sampling quills installed in piping and vessels. Types of mechanical analyses to consider: Stress analyses (static and dynamic) Vibration analyses Fluid dynamics analyses (vortex shedding) Heat transfer analyses Materials analyses (corrosion and erosion) Exploring standard, novel, and new solutions to these challenging applications and having these analyses of thermowells/quills would be useful to deal with non-standard design conditions that are outside of the “ASME PTC 19.3 TW-2016 - Thermowells – Performance Test Codes – Standard” limitations.

Heat Transfer Analysis

We are looking for engineering students to help us analyze the performance of some of our products. Examples are as follow: 1. Thermowells with sensors installed into vessels and piping systems. This could include the heat transfer analysis of different variations on the thermowell design with conduction, convection, and/or radiation depending on the process selected. 2. Surface mount sensors mounted inside of furnaces. This could include the heat transfer analysis of different variations on the sensor design with conduction, convection, and radiation. 3. Injection quills dispersion and mixing modelling. Having analyses of sensor heat losses/gains, response times, and thermal balance/equilibrium would be useful. As well as comparing the difference between the actual process temperature to the expected measured temperature.

Thermowell + Quills NACE - White Paper (Digital Content Creation)

Categories Communications Marketing Virtual Internship Engineering Details Number of individual students required: 1 to 2 OR Number of students required to work in team: 1 team of 2 We would like students to help us with creating content that is aligned with our vision, mission, and sector. We will ensure the student has a clear understanding of what these elements are for our organization. As an industrial temperature sensor manufacturer and welding shop Aircom is looking to work with and educate its customers on the technical details of thermowells and sampling/injection quills used in harsh corrosive environments based on the NACE MR0175/ISO 15156 and MR0103/ISO 17945 requirements. We'd be looking for a overview of the standards as to how they apply to machined, welded, and treated thermowells and quills, how the standards are different from each other, and how the history of the standards has evolved with changes in requirements in recent updates. To accomplish this, we expect the student(s) will: Write a technical codes/standards research paper (technical audience) and a whitepaper (non-technical audience), other content pieces on assigned topics Assist with a social media posts to promote our organization Evaluate recent successful user-generated campaigns, preferably in our sector Identify media outlets that are most beneficial to share our story Ultimately, you will be working on technical engineering content creation for our organization, including social media, and other collateral that we can use as go-to marketing tools. If you like the sound of our culture, and are ready to tackle this challenge with us, then we'd love to hear from you. A student or team with excellent technical engineering writing and social media skills would be the ideal candidate for this project.