There are a number of factors that determine the maximum temperature rating of a pressure vessel. For most applications it is the gasket material. Vessels with O-ring seals are limited to 225 °C and those with FKM or FFKM are limited to 300 °C. Parr’s design for contained PTFE gaskets extends the operating temperature range to 350 °C. Flexible Graphite (FG) material essentially removes the gasket as the limiting factor. Maximum temperature limits for the metals used in these vessels are established by the ASME code and other standards. Most metals have maximum temperature limits between 400 and 800 °C. The allowable strength for these metals falls off rapidly as they reach maximum operating temperature. Finally, the difficulties encountered with screw threads and other closure components operating at high temperatures establish a practical temperature limit for externally heated vessels. We have found 600 °C to be a reasonable limit.
Internally Heated Vessels
Exposed Heaters
Another approach that has proven useful in extending the maximum temperature limit is to place the heater inside the pressure vessel. This heater is surrounded by a layer of insulation. This creates a hot zone in the center of the vessel and prevents the walls from exceeding their allowable limit. As this system is very energy efficient, internal heaters can be less powerful than external heaters. Internally heated vessels are equipped with insulated electrical feed-throughs to power the heater. Multiple thermocouples are used to control or monitor the temperatures in the hot zone and on the vessel inner wall.
The reactions or studies carried out in internally heated vessels must be limited to those which will not destroy the exposed internal heaters and insulation. These are normally gas-solid reactions or controlled atmosphere heat treatment studies. The heating elements are normally ceramic. Some users have developed induction style heaters and insulators and have extended their investigations to above 2500 °C.
Although internal heaters can be installed in almost any non-stirred Parr pressure vessel, vessels with larger I.D.s are required in most applications.
Protected Heaters
Internally heated vessels have also been manufactured with cartridge type heating elements inserted in specially designed “heater wells”. These wells protect the heater from the reactants and expand the applications that can be studied. Cartridge type heaters have a maximum temperature of 760 °C.
Accessories
4878 Automated Liquid Sampler
Catalyst Addition Devices
Catalyst Baskets
Catalyst Loading Toolkit
Catalyst Testing System
Condensers
Coned Pressure Fittings
Continuous Bulk-Solids Feeder
Controllers
Cooling Coils
Equipment for Use in Potentially Ignitable Atmospheres
External Valves and Fittings
Gas Measurement Systems
--Intermediate Supply Tanks
--Mass Flow
--High Pressure Gas Burettes
Heaters
Insulated Electrical Glands
Liners
Liquids Charging Systems
--Liquid Metering Pumps
--Liquid Charging Pipettes
Magnetic Drives
Motors and Drives
Pressure Gages
Pressure Hose
Safety Rupture Discs
Sample Collection Vessel
Service Fixtures
Solids/Slurry Addition Devices
Spare Parts Kits
Split-Ring Closures
--Stirrer Options
--Gas Entrainment Impellers
Temperature Limits
Thermocouples
Valves and Fittings
--Bottom Drain Valves
--Manual Control Valves for Compressed Gas Tanks
--Pressure Relief Valves
--Safety Check Valves
Windows