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Installation Checklist UltraFlow 150  (revision N)

* Your order cannot be scheduled for production until accurate information is provided for all fields marked with an asterisk.

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1.  CUSTOMER CONTACT INFORMATION

 

 

 

 

 

 

 

 

 

 

 

 

 

2.  APPLICATION INFORMATION

 

Monitor will be used for:	compliance Process Control
*Process Type:
*Measurement Location Elevation (above mean sea level):		Feet Meters
*Wet Scrubber:	Yes	No
*Selective Catalytic Reduction (SCR):	Yes	No
*Redundancy, two separate TIEs on the stack:	Yes	No
*X-Pattern, two measurement paths with one TIE:	Yes	No

 

3.  PROCESS VARIABLES

 

*Typical Temperature:		Degrees F Degrees C
*Maximum Velocity for Certification:		Feet/Sec  Meters/sec
*Minimum Velocity for Certification:		Feet/Sec  Meters/sec
*Typical %H2O by volume:
*Typical %O2 by volume:
*Typical %CO2 by volume:
Typical SO2 ppm:
Typical NOx ppm:
Typical HCL ppm:
Other Gases:

 

     *MAXIMUM TEMPERATURE

 

-40 to 250F (-40 to 121C)	451 to 500F (233 to 260C)60C)
251 to 300F (122 to 149C)	501 to 550F (261 to 287C)
301 to 350F (150 to 176C)	551 to 600F (288 to 315C)
351 to 400F (177 to 204C)	601 to 650F (316 to 343C)
401 to 450F (205 to 232C)	>650F (> 343C) Consult Factory

 

     *PROCESS PRESSURE

 

-30 TO -15 in. H2O (-7.47 to -3.745 kPa)	+10 to 15in. H2O (+2.49 to +3.745 kPa)
-15 to -5in. H2O (-3.745 to -1.245 kPa)	+15 to +20in. H2O (+3.745 to +4.98 kPa)
-5 to +5in. H2O (-1.245 to +1.245 kPa)	Other, Consult Factory
+5 to +10in. H2O (+1.245 to +2.49 kPa)

    

     *PARTICULATE

 

	<=3000 mg/m3
	> 3000 mg/m3

 

4.  GEOMETRY OF STACK OR DUCT   

 

*Orientation:	Vertical	Horizontal
*Shape:	Round	Rectangular

                   

     *INSIDE DIAMETER OF STACK OR DUCT   

 

 

	If Round	If Rectangular Depth	If Rectangular Width
*Upstream:				Feet  Meters
*Downstream:				Feet  Meters

All geometry calculations will be preformed assuming the transducers will be mounted across the “Width” dimension. (See Attachment B).

 

     *OFFSET 

 

This is the upstream vs. downstream displacement between the two transducers. The
OFFSET will provide the information necessary to calculate the mounting angle. After reviewing the
information in this checklist, Teledyne Monitor Labs will recommend the optimum OFFSET distance.

 

Feet

Meters

 

     *THICKNESS OF STACK WALLS  

 

 

	Upstream	Downstream
*Inner liner wall thickness			in ft Meters
*Annular space thickness			in ft Meters
*Outer shell wall thickness			in ft Meters

 

Please note below any Mounting Tube Installation or other known stack or duct characteristics that
may be important for installation or factory calibration.
Examples:
• Structural bracing.
• Existing sampling probes located near or between the proposed locations of the transducers.
• Reuse of existing ports, etc.

*5.  DISTANCE FROM DISTURBANCES  

 

This is imperative to judge potential flow pattern issues in the stack or duct.

*Downstream		Feet	Meters
*Upstream		Feet	Meters
*Multiple inlets to the stack or duct?	Yes  No

 

Comments:

 

 

6.  INPUTS AND OUTPUTS

 

     *BAROMETRIC PRESSURE TRANSDUCER OPTIONS

 

I do NOT want to use any Barometric Pressure Transducer
I do want to use the Barometric Pressure Transducer and I wish to purchase the Pressure Sensor from Teledyne Monitor Labs.
I DO want to use the Barometric Pressure Transducer and I will supply my own   See scaling below

 

Type	Scaling
	Value @ 1V or 4mA	Value @ 5V or 20mA
Voltage
Current

 

 

     *EXTERNAL TEMPERATURE OPTIONS

 

 

I do NOT want to use the External Temperature Option.  I prefer to use the temperature calculated by the UltraFlow.
I DO want to use the External Temperature Option and I wish to purchase a temperature sensor from Teledyne Monitor Labs, Inc.
I DO want to use the External Temperature Option and I will supply my own. (See scaling below).

 

Type	Scaling
	Value @ 1V or 4mA	Value @ 5V or 20mA
Voltage
Current
1000 ohm RTD
100 ohm RTD

 

7.  SYSTEM CONFIGURATION

 

Direct Interface

Enhanced Remote Panel

      

 

If you selected the DIRECT INTERFACE Configuration, fill out this section

ATTACHMENT A

The following tables list the commonly used analog outputs, units and digital output selections.

Parameters for Analog Outputs

Average Standard Flow Volume

Average Actual Flow Volume

Average Medium Internal Temperature

Average Medium External Temperature

Average Barometric Pressure

Instantaneous Standard Flow Volume

Instantaneous Actual Flow Volume

Instantaneous Actual Velocity

Average Actual Velocity

 

Units	Type
CFS	Volume (cubic feet per sec)
CFM	Volume (cubic feet per minute)
CFH	Volume (cubic feet per hour)
KCFS	Volume (1000 cubic feet per sec)
KCFM	Volume (1000 cubic feet per minute)
KCFH	Volume (1000 cubic feet per hour)
CMS	Volume (cubic meters per sec)
CMM	Volume (cubic meters per minute)
CMH	Volume (cubic meters per hour)
KCMS	Volume (1000 cubic meters per sec)
KCMM	Volume (1000 cubic meters per min)
KCMH	Volume (1000 cubic meters per hr)
F	Temperature (degrees Fahrenheit)
C	Temperature (degrees Celsius)
In Hg	Barometric Pressure (inches of mercury)
mm Hg	Barometric Pressure (millimeters of mercury)
Ft/sec	Velocity (feet per second)
M/sec	Velocity (meters per second)

 

Parameters for Digital Outputs

ZERO Data on Analog Output

SPAN LOW Data on Analog Output

SPAN HIGH Data on Analog Output

NORMAL Data on Analog Output

Calibration Data on Analog Output

Interference Test

Fatal Fault

Non-Fatal Fault

Purge Failure

Calibration Failure

Data Valid

Average Flow Volume Alarm

Average Medium Temperature Alarm

ATTACHMENT B

 

 

 

ATTACHMENT C