Mechanical seal support flush plans circulate fluid through mechanical seals to maintain adequate lubrication, pressure, temperature, and solids content in the seal chamber. The flush plan creates an optimal environment for the seal, preventing wear and failure and prolonging its life. The reliability of a SAGD operation depends on flush plans to protect mechanical seals from the harsh, heavy process fluids involved in SAGD.
There are many different API 682 mechanical seal support flush plans suited to different SAGD applications. To ensure a mechanical seal performs efficiently and reliably, it is essential to select the right flush plan to support it. Below we will look at some of the most common mechanical seal support flush plans used in SAGD operations and the benefits of consulting with an Edmonton Valve & Fitting Field Advisor when replacing or installing a new seal support system and flush plan.
A flush plan delivers either process fluid or an external fluid to the seal chamber at the required pressure, temperature, and flow rate to protect the seal from friction, heat, and solids. The American Petroleum Institute (API) has standardized these mechanical seal support flush plans in API Standard 682: Pumps—Shaft Sealing Systems for Centrifugal and Rotary Pumps.
Mechanical seal support flush plans fall into one of three categories, depending on where the flush fluid is delivered: process-side, dual or in-between, and atmospheric-side.
The heavy, dirty fluids of SAGD usually need to be treated before flushing the seal face. Filters, strainers, or cyclone separators can remove solids from the process fluid, and heat exchangers can be used to cool it to a suitable temperature.
The table below describes the basics of some of the most common flush plans used in SAGD.
API 682 Flush Plan |
Description |
Flush Location |
Applications |
Plan 11 |
Process fluid recirculates from the pump discharge through a flow control orifice to a single mechanical seal. |
Process side |
Adequate for most general applications with non-polymerizing fluids and sufficient pressure. |
Plan 12 |
Process fluid recirculates from the pump discharge through a strainer and flow control orifice to a single seal. |
Process side |
Similar to Plan 11, but with a strainer to remove solid particles from contaminated fluids. |
Plan 32 |
Clean fluid from an external source is pressurized through a throat bushing and delivered to a single seal. |
Process side |
Used when the process fluid is unsuitable for flushing the seal because it contains solids or contaminants. |
Plan 52 |
Clean buffer fluid is delivered from a reservoir to the outboard seal face in a dual seal arrangement. |
Dual seal |
Used when contamination of the process fluid with a barrier fluid is unacceptable. |
Plan 53A, 53B, 53C |
Clean, pressurized barrier fluid is delivered to the inboard and outboard seal faces from a reservoir (53A), bladder accumulator (53B), or piston accumulator (53C). |
Dual seal |
Used for dirty, abrasive, or polymerizing process fluids that would damage the seal faces or flush system, or when leakage of the process fluid into the atmosphere is unacceptable. |
Plan 54 |
Clean, pressurized barrier fluid is delivered to the inboard and outboard seal faces from an external source. |
Dual seal |
Used when the process fluid is hot or contaminated with solids or when the pumping ring is unable to supply a sufficient flow rate. |
Plan 55 |
Clean, unpressurized buffer fluid is delivered to the inboard and outboard seal faces from an external source. |
Dual seal |
Used when the process fluid may solidify when exposed to the atmosphere or when additional heat removal from the inner seal is required. |
Plan 62 |
An unpressurized quench is delivered from an external source to the atmospheric side of a single seal. |
Atmospheric side |
Used when a single mechanical seal requires a quench to operate; prevents coking and oxidation by clearing solids. |
These are just a few examples of the multitude of mechanical seal support flush plans in API 682. Selecting the best flush plan for the process requires careful consideration of the process conditions, fluid properties, and infrastructure available. The wrong flush plan can adversely affect the process temperature, pressure, and flow, reducing efficiency and potentially causing early seal failure.
In general, the simpler the process, the simpler the flush plan. Hazardous, volatile, or highly viscous process fluids require more complex flush plans to protect the seal.
The safest choice is to consult with fluid systems management experts so you know you’re getting the most efficient, reliable flush plan for your process.
There’s a lot to know about mechanical seal support flush plans, but you don’t need to have expert knowledge to get the most out of your SAGD operation’s seal support systems, especially when you get an onsite evaluation from one of our experienced Field Advisors. Our Field Advisors are experts in API 682 implementation for SAGD operations and will make sure you get the seal support solution you need.
In addition to determining which flush plan is best for your process, our Field Advisors can make specific recommendations regarding system design, instrumentation, and components to boost reliability.
We build our API 682-compliant systems locally, so you get what you need quickly. We test all systems thoroughly to validate safety, reliability, and ease of maintenance. All our products are backed by Swagelok’s Limited Lifetime Warranty—one of the strongest in the industry.
About Tristian McCallion, Custom Solutions Manager, Edmonton Valve