Factors in Compression Station Design - GMRC
Reciprocating and Centrifugal compressors are widely used in the natural gas industry; but when, where, why, and how to use each technology is less understood. In this 4, half-day training course, attendees will learn the key differences between reciprocating and centrifugal compressors and their associated equipment, how to size and select them, and when each is the ideal technology to install. Pros and cons, including the financial implications of each technology, will be viewed through the lens of real-world case studies. This webinar acts as a follow-up to a few key topics discussed in our 3-hour virtual “Compressor Technologies” class.
Learning Objectives
- Learn the fundamentals of reciprocating and centrifugal compressors
- Solve related problems.
- Ask the right questions when designing.
- Understand CAPEX vs OPEX cost implications for decisions made.
- Manage a design project for a small station, with some help.
- Do calculations to size equipment.
- Choose what equipment goes with the chosen compression system.
- Layout major equipment, and interconnecting piping.
Who Should Attend
- New engineers looking to enhance their understanding of compressor technologies.
- Long-time engineers looking to refresh their understanding.
- Anyone looking for a high-level, value-centric approach to compressor design.
Instructor
Josh Shaver, Sr. Project Manager, LJA Engineering
Mr. Shaver has 18 years experience in the oil and gas industry, with experience across OEM, Operator, Owner, and consulting sectors. During this time, he has held the position of Professional Engineer in 21 states, with duties including various degrees of design for elements of mechanical, structural, civil, electrical, automation, and process design, project and construction management, purchasing, and quality control.
A Method and Apparatus for Direct Enthalpy Rise Measurement for Gas Compression, Phase 3
Day: 10/5/29
Time: 1:15 pm - 2:00 pm central time.
Equations of State are used to determine the performance of compressors and pipeline hydraulics. These are semi-empirical models that calculate various thermodynamic and physical properties of gas mixtures for known pressures and temperatures. Isentropic enthalpy head is a critical thermodynamic parameter that is required to accurately design and performance test compressors. A novel method and test apparatus was developed to measure enthalpy rise directly using a calibrated, near isentropic compression process. This paper will discuss the modifications to this test apparatus required for measuring hydrocarbon mixtures that include corrosive gas and water vapor, the measurement methodology, and test results.
A Study of TER Control with Varying Fuel Reactivity and Proposed Control Modifications
October 7, 2020
1:15-2:00 p.m. central
The corrected trapped equivalence ratio (TER) method for pipeline engine control allows for real-time control of exhaust emissions. While successful, this method currently lacks the ability to account for fuel reactivity effects on emissions formation. Changes in gas composition resulting in large amounts of non-methane hydrocarbons lead to higher reactivity which can result in increased NOx if otherwise unaccounted for. This work investigates the impact of composition on fundamental combustion properties and engine behavior. Findings are used to develop a correction for the existing calculation of corrected TER such that the method retains sufficient accuracy during periods of composition variability.
Combustion Stabilization in Reciprocating Engines and Its Impact on Reliability
Legacy reciprocating engines are critical assets to all pipeline companies. The method in which they are monitored and maintained significantly impacts each asset's overall life cycle. Combustion stabilization within this equipment has the potential to reduce green house gas (GHG) emissions, extend mean time between failure (MTBF), improve fuel economy and extend its useful life. This course is a continuation of the GMRC Introduction to Internal Combustion Engines course (available on-demand) in which deeper concepts will be explored. Attendees will be educated through presentation, virtual interaction and demonstration by use of a simulator built by the instructor. Join us in exploring a unique perspective on Combustion Stabilization in Reciprocating Engines and its Impact on Reliability. You will learn: Combustion and Fire Triangle Review What is Fuel Balancing? Importance of Fuel Balancing/Combustion Stabilization Steps to Complete Fuel Balancing Air/Fuel Ratio vs Trapped Equivalency Ratio Fuel Balancing Components (Mechanical Breakdown) Impact of Balancing/Stabilization on Emissions Balancing Utilizing a Windrock PA System Introduction to Equalization Lines Full 'Virtual' Demonstration Utilizing a Fuel Rail Simulator WHO SHOULD ATTEND All level Engineers, Analysts, Technicians, Mechanics, FSRs, Project Managers and Reliability Engineers interested in gaining a more in-depth understanding of Fuel Rail Balancing and Combustion Stabilization |
Instruction Information:
Mary Savalle, PMP, REC A passionate and unapologetic advocate for STEAM (Science, Technology, Engineering, Art, and Math) educational opportunities, Detroit native Mary Savalle attended Wayne State University and completed her final year of undergraduate studies at Polytechnica Universidad de Puerto Rico. Her multi-faceted career began with DTE and includes experience with large natural gas engines and compressors, diagnosing engine/compressor defects, leadership at the largest gas storage facility in Michigan, supporting the Continuous Improvement Department, Reliability Engineer, Principal Reliability Engineer, and Capital Project Manager. Mary’s professional credentials include: BS in Mechanical Engineering Lean Six Sigma Green Belt Project Management Professional (PMP) Reliability Engineering Certification (REC) through Clemson University. She has published industry papers, travels nationally teaching courses on internal combustion engine concepts and has developed training devices for kinesthetic learners. She has worked with companies around the world in research, analysis and training activities. Mary’s passion for STEAM and community has resulted in partnerships with a local art store and elementary school to teach children STEAM concepts. Utilizing art and artifacts to create an interactive and engaging experience for 50 students each month, Mary is striving to ignite the STEAM movement in the next generation. |
Condition Based Overhauls, Do you really know What Condition your Condition is In
10/13/2020
9:00 AM - 10:30 PM Central Time
There is never enough time, people or money to blindly overhaul these units just based on run hours. That’s why our major repairs and overhauls need to be based on the unit’s true condition.The paper will mainly focus on data collected by the Equipment Analyst, and pattern interpretation of the data.
We will discuss four major components of the large reciprocating engines, and the tools needed to evaluate the Unit’s True Condition.