Sample Probe Ordering Form0 pages
Temperature at PG Gland:
NPT:
Socket Weld
Dia.:
Length:
Threaded Flange
Size:
Rating:
Welded Flange
Size:
Rating:
Wetted (PG Body) Materials Requirement
303 SST
MONEL 400
316/316LSST
HASTELLOY C22
316 NACE
HASTELLOY C276
Other, please specify:
Special Gland Body Design:
Counterbore/Bonda Relief
Integral O-Ring
Dual Sealant
Yes
No
Special
Company:
Completed By:
Email Address:
Phone:
Quantity:
10) Conax PG Sealing Gland (see page 2):
45°
90°
Other:
2) Angle “A”:
3) Stop Collar:
“L” Overall Sample Probe Length:
“B” Stop Collar Set-Back :
(.25” is STD.)
“Y” Flange/Nozzle/Valve Length:
“Z” Immersion Into Process Flow:
1) Overall Dimensions:
Contact Information:
Fax: 1.716.684.7433 • Tel: 1.716.684.4500 • USA Toll Free: 1.800.223.2389 • Email: SPA@conaxtechnologies.com • Website: www.conaxtechnologies.com
Conax Sample Probe Assembly Quote Request Form
• Please print, complete and return to Conax
• Fax to 716.684.7433 to the attention of Tom Mech or scan and email to SPA@conaxtechnologies.com
• Please download the complete Sample Probe Brochure for additional technical details
http://media.conaxtechnologies.com/spa6066.pdf
Plain End
Plain End w/laser markings
V-Notch Relative to Angle “A”
Integral NPT
Tube End Fitting NPT:
Other,
please specify:
Material:
Probe (tube)
OD:
Wall:
Probe (pipe):
Chain Kit:
Yes
No
Coatings/Finish:
Silcolloy™ 1000 (Silcosteel®-CR)
SilcoNert™ 2000 (Siltek®/Sulfinert®)
Electro - Polish
Not Required
9) Probe End Options:
Media:
Velocity:
Temperature:
Pressure:
Flow Rate:
Density:
Pipeline Size:
Schedule:
4)Process Conditions:
8) Sample Probe/Options:
Pipe Size:
Schedule:
Min. Through Diameter:
Nozzle insert required
No nozzle insert
5) Nozzle:
6 & 7) Valve Type & Size:
Nozzle
Valve
Conax
PG Gland
Sample
Probe
Probe
End
Flange/
Nipple
“Y”
“L”
“Z”
“B”
Stop Collar
Angle “A”
Optional
Chain Kit
Wake Frequency
Calculations by Conax
Yes
No
Bonda
Relief/
Counterbore
6) Flange/Nipple by Conax
Flange/Nipple by Others
7) Valve:
By Conax
By Others
Size:
Confirm through bore in valve:
10
1
9
8
7
6
5
4
3
2
11
11)
1
Process
Flow
8