Scientific Surveys Ltd The Premiere Pipeline Portal
SSL HomeAbout SSLSSL LinksContact UsFeedback SSL Store
 
PipemagPipedirPigsourceWorldpipePipeconferences
Home
Search
Start here, you'll be able to search products by Title, Publication Date, Keywords, or browse by Category.
Continue
Keep items in your cart, continue shopping
Checkout
Click here when you're done buying.
An account is required to use ssl's secure commerce engine
Once created, you may proceed to either modify your account or continue to purchase items.
View Cart
Check the items you've put in your cart for purchase.
Order Status
Find out where your order is.
 

 

Displaying records 613 through 613 of 2180
First Prior Next Last
   
Qty:  Add to Cart
Special! Free shipping on this item!
Title: Dynamic phenomena in compressor station recycle systems
Category: Technical papers from the Journal of Pipeline Engineering
Downloadable: Yes 
Catalog No.: 2244s
Date of Publication: Dec 1 2011 12:00AM
Price: $25.00 US
Authors: Dr Kamal K Botros
Abstract: COMPRESSION SYSTEMS ARE designed and operated in a manner to eliminate or minimize the potential for surge, which is a dynamic instability that is very detrimental to the integrity of the compressor unit. Compressor surge can occur when compressors are subjected to rapid transients such as those occurring following an emergency shutdown (ESD) or a power failure. To prevent this from occurring, compressor stations are designed with single- or dual-recycle systems with recycle valves, which are required to open upon ESD. There has been extensive debate and confusion of late as to whether a single-recycle or a dual-recycle system is required and the circumstances and the conditions under which one system or the other must be used. This paper discusses this crucial design issue in detail and highlights the parameters affecting the decision to employ either system, particularly for high pressure ratio, low inertia compressors. Parameters such as gas volume capacitance (V) in the recycle path, compressor power train inertia, compressor performance characteristics, the recycle valve coefficient (Cv), pre-stroke and stroke time, and check valve dynamic characteristics, are crucial in determining the conditions for dynamic instabilities. A simple analytical methodology based on the perturbation theory is developed that provides a first-cut analysis to determine if a single-recycle system is adequate for a given compression system. The concept of an inertia number is then introduced with a threshold value that determines which recycle system to use. Techniques to circumvent compressor surge following ESD are discussed and their respective effectiveness are highlighted, including when and if a delay in the fuel cut-off will be effective. An example of a case study with actual field data of a high pressure ratio centrifugal compressor employed in a natural gas compressor station is presented to illustrate the fundamental concept of single- vs dual-recycle systems.
SSL Home Copyright | Privacy Statement