PROCESS DESCRIPTION
The process liquid inlet is connected to the bottom of the vaporizer, the liquid rises to contact sufficient surface to meet the vapour demand rate. After evaporation, the vapour rises through the baffle for super heating and the superheated gas leaves from the outlet.
The vaporizer self- adjusts liquid level according to the vapor withdrawal flow rate at the outlet of the vaporizer.
Range ability of the system is 10-100% of capacity. The steam condensate from the vaporizer is drained through a bottom nozzle connected to the thermodynamic trap.
CONSTRUCTION
IEC steam heated bayonet vaporizers are offered in various MOC such as Carbon steel, Stainless Steel, and speciality alloys such as Monel, Hastelloy and Inconel grades.
MOC of the vaporizers will be selected based on the chemicals vaporized.
Chlorine
Bromine
Ammonia
Sulfur-di-oxide
Sulfur Tri-oxide
Di-methyl amine
Tri-fluoro acetyl chloride
Silicon Tetrachloride
Hydrogen sulfide
Tri-methyl amine
C3-C6 hydrocarbons
(Including LPG)
And other liquefied gases
Each system is designed, fabricated, pre-piped, pre-assembled, pre-wired, and pre-tested in a skid and ready to hook-up at site with minimum installation time.
EASE OF INTERNAL INSPECTION & CLEANING
The internal and external surface of the bayonet vaporizing chamber can be easily inspected during servicing which is a unique feature of the design. Ease of cleaning is an added advantage to remove the sediments.
SAFETY INTERLOCKS
Interlocks for prevention of liquid flooding in gas outlet.
Interlocks for steam failure and pressure relief system.
Interlocks for low pressure in heating media.
Interlocks for High pressure in gas outlet.
Features
- Low holdup volume for safety
- Ease of Capacity control
- Design flexibility to achieve super heat.
- Built-in gas station with Manual or Auto pressure control system
- Custom designed system with Relay based LCP or PLC or Interface facility for Customer's DCS
- IP 54 & IP 65 or Flame Proof Panel and instruments according to zone classification.