flare design english

Note: Please attach any additional information or technical specifications regarding your flare system. FLARE SYSTEM DESIGN DATA Client: Telephone #: Address: Fax #: End User / Location: E-Mail: Flow Units lbs/hr mmscfd Nm 3 /hr Kg/hr Case 1 Case 2 Case 3 Case 4 Case Combinations Flow rate Mole % Maximum Please list all possible Weight % Minimum case combinations. Process type (continuous, intermittent,etc.) Example: Gas composition (1,2,4) Nitrogen N 2 Hydrogen H 2 Oxygen O 2 Ammonia NH 3 Carbon Monoxide CO Carbon Dioxide CO 2 Hydrogen Sulfide H 2 S Water H 2 O Methane CH 4 Ethane C 2 H 6 Propane C 3 H 8 I - Butane C 4 H 10 N - Butane C 4 H 10 I - Pentane C 5 H 12 N - Pentane C 5 H 12 Hexanes C 6 H 14 Heptanes C 7 H 16 Propylene C 2 H 6 Benzene C 6 H 6 Butadiene C 4 H 6 Ethylene C 2 H 4 Xylene C 8 H 10 Air Supply Pressure inches H 2 O psig Gas Temperature psia Molecular Weight kg/cm 2 Lower Heating Value (LHV)

Upload: cyanpak

Post on 29-Sep-2015

7 views

Category:

Documents

2 download

Report

Download

Embed Size (px):

DESCRIPTION

FLARE SYSTEM DESIGN DATA

TRANSCRIPT

Note: Please attach any additional information or technical specifications regarding your flare system.

FLARE SYSTEM DESIGN DATA

Client: Telephone #:

Address: Fax #:

End User / Location: E-Mail:

Flow Units lbs/hr mmscfd Nm3/hr Kg/hr

Case 1 Case 2 Case 3 Case 4 Case Combinations

Flow rate Mole % Maximum Please list all possible Weight % Minimum case combinations. Process type (continuous, intermittent,etc.) Example:

Gas composition (1,2,4)

Nitrogen N2 Hydrogen H2 Oxygen O2 Ammonia NH3 Carbon Monoxide CO Carbon Dioxide CO2 Hydrogen Sulfide H2S Water H2O Methane CH4 Ethane C2H6 Propane C3H8 I - Butane C4H10 N - Butane C4H10 I - Pentane C5H12 N - Pentane C5H12 Hexanes C6H14 Heptanes C7H16 Propylene C2H6 Benzene C6H6 Butadiene C4H6 Ethylene C2H4 Xylene C8H10 Air Supply Pressure inches H2O psig Gas Temperature psia Molecular Weight kg/cm2 Lower Heating Value (LHV)
Permissible Radiation Level Flashback Protection Device _________ Radiation (BTU / hr/ ft2) Molecular Seal _________Solar radiation (BTU/hr/ft2) Include / Exclude Dynamic Seal At base of flare Flame Arrestor Other ________________ (specify) Body Material _______________ Internal Material _____________

Structure Type Line Size ___________________ Guyed Liquid Seal Drum Self Supported Combination Liquid Seal / Knock-Out Drum Derrick Supported Accessories

Flare System Application Ladders and Platforms Elevated Aircraft Warning Lights Bio-Gas Knock-out Drum Enclosed Ground Flare Other ________________ Offshore Rental Utilities Multi-Point Power Available Other ______________________ Voltage:_______ Phase:_______Cycles:_______

Smokeless Pressure Available: Yes No Natural Gas __________ Propane __________ % of Smokeless Required ________________ Steam __________ Instrument Air __________ Method of Smoke Elimination Preferred (if any) Air Assisted Flare System Contaminant Concentration at Grade / Steam Assisted Flare System Dispersion Sonic Flare System ______________SO2 (ppm or ug/m3) ______________H2S (ppm or ug/m

3)

Ignition System

Flame Front Generator and Pilots Pilot Monitoring System Manual Automatic UVI-550 Optical Pilot Monitor (Ultraviolet) Self Inspirating Flame Front Generator Thermocouple ENERGEX Electronic Pilots RETRAX Retractable Electronic Pilot Notes: CONTINUUM Retractable Ignition System

Site Conditions and Structural Design _________Maximum Wind Velocity (mph) _________Seismic Zone _________Seismic Code (UBC, COVENIN, Cirsoc)