Introduction, Reservoir, Sealing system description – Flowserve Seal Support Reservoir User Manual

Introduction

This manual covers the installation and operation of Flowserve Seal Support

Systems for dual unpressurized (API Plan 52/ANSI Plan 7352) and dual

pressurized seals (API Plan 53A, 53B, 53C/ANSI Plan 7353). The following

instructions describe the appropriate system, buffer/barrier fluids, installation,

start-up and maintenance.

Reservoir

The standard supply tank is designed in accordance with ASME Code Section VIII,

Division 1. All tanks are welded in accordance with ASME Code Section IX. Tanks

include inlet, outlet, vent and fill, along with mounting lugs as minimum connection.

Sealing System Description

Supply tank assemblies can be used as reservoirs for dual seal designs. The

sealing system produced is defined as being either a thermal convection system

or a forced circulation system.

Support System Descriptions

API Plan 53A, 53B, 53C/ANSI Plan 7353A for dual pressurized seals

An API Plan 53A/ANSI 7353A is a pressurized dual seal system which is used

in services where no process leakage to atmosphere is tolerated. The system

consists of dual mechanical seals with a barrier fluid between them. The barrier

fluid in the supply tank is pressurized to a higher pressure than the seal chamber,

normally 15 to 25 psig (1 to 1.7 bar). Primary (inboard) seal leakage will be barrier

fluid into the product. A small amount of leakage is customary.
An API Plan 53A/ANSI Plan 7353A is usually chosen over an API Plan 52/ ANSI

Plan 7352 for dirty, abrasive or polymerizing products which would either damage

the seal faces or cause problems with the barrier fluid system if an API Plan 52/

ANSI Plan 7352 is used. There are two disadvantages to an API Plan 53A/ANSI

Plan 7353A which must be considered. First, there will always be some leakage

of barrier fluid into the product. Normally, this leakage will be minute, and the

leakage rate can be monitored via the level gauges or other instrumentation.

However, the product must be able to accommodate a small amount of contami-

nation from the barrier fluid. Secondly, an API Plan 53A/ANSI Plan 7353A system

is dependent on having the supply tank pressure maintained at the proper level.

If the supply tank pressure drops, seal leakage direction will be reversed and the

barrier fluid will be contaminated with the process fluid.
An Induced Circulation System is essentially the same as the thermal convec-

tion system, except for the addition of a circulating device in the seal cavity which

provides for positive flow in the system. The addition of the circulating device

provides for positive flow of barrier/buffer fluid shown in Figure 1. Because supply

tanks provide for poor radiation and convection of heat to the atmosphere, it is

common to add cooling coils inside the reservoir as a means of removing heat.

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