Thermal Oxidation Inquiries
Required Fields are in
blue.
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| Name: |
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| Company: |
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| Address: |
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| City: |
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| State/Province: |
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| Postal Code: |
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| Country: |
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| Phone: |
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| Fax: |
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| E-mail Address: |
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| Project Site: |
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| Elevation: |
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Bid Due Date: |
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| Bid Type: |
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| Expected Order Date: |
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Waste Information:
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Number of Waste Streams: |
How many waste streams will be
treated? |
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Flow Rate of Each
Waste Stream (LB/HR, SCFW, GPM, etc): |
Operating information on each
waste stream is important. Can the flow rates go to
zero at times? Do flow rates change fast, slow or
not at all? |
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Temperature and Pressure of Each Waste
Stream |
If the waste is a liquid, viscosity information is
also required |
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Composition of Each Waste Stream:
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Information on any compound(s) critical to the
operating permit is especially important. Are there
any: metals, halogens (chlorine, fluorine, etc),
sulfur compounds, particulates? If the composition
may vary, please estimate the degree and rate of
variations. What is known about any corrosive
properties |
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| Number of
Waste Streams: |
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| Composition: |
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Rate |
Viscosity |
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| Additional Components: |
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| Type: |
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| Peak Flow: |
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| Minimum Flow: |
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| Utility Information: |
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What is the Temperature and Pressure of the Auxiliary Fuel? |
Natural gas is the best and most common
auxiliary fuel. However, fuel oil, propane or
LPG can also be used. |
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Is Compressed Air or Steam Available? |
Liquid wastes often require compressed air or
steam for atomization. What is the temperature
and pressure of the air or steam available? |
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Is Electrical Power Available? |
Is 480 volts available for motors? Can 110 volts
be supplied for the control system or does it
need to be transformed from 480 volts? Other
voltages? |
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Is Instrument Air Available? |
Control components or valve actuators are
sometimes pneumatic. If instrument air is
available, what is its pressure and dew point
temperature? |
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Is a Quench Medium Available? |
Some waste streams are exothermic (give off
heat) when destroyed. These types of wastes
require some type of medium to cool the
reaction. Steam and water make the system
smaller. Ambient air is less expensive, but it
also makes the system larger. |
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| Auxiliary Fuel for Start-Up: |
Natural Gas
Oil |
| Pressure: |
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| Temperature: |
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| Compressed Air / Steam: |
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| Electric Power |
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| Instrument Air: |
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| Quench Medium: |
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| Atomization Media: |
| Steam Pressure: |
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| Air Pressure: |
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| Power Characteristics: |
| Volts: |
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| Phase: |
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| Cycle: |
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| Area Information: |
| Area Classification: |
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| Design Requirements: |
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What Emissions Limits Are Required? |
This includes NOx, HCl, particulate matter,
stack opacity, etc. What percent of the waste
hydrocarbons must be destroyed? If a wet
scrubber is needed to clean the flue gas, is a
visible steam plume acceptable? Any limits on
the blowdown concentration from wet scubbers? |
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Will the System Operate Continuously or
Intermittently? |
Is the emission source a batch system? Will the
system run 24 hours per day, 7 days a week or is
it restarted daily? |
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Is There a Minumum Stack Height? |
This may be set by adjacent structures. |
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Are There any Plot Space Limitations or
Preferences? |
Will the system be mounted on a roof or indoors? |
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How Important is Energy Conservation? |
While energy conservation is important to
everyone, it doesn't come free. What kind of
payback is expected for the additional dollars
invested in the system? If heat recovery by
steam generation is desired, what steam pressure
is required? Is preheat or either waste gas or
combustion air expected? |
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Destruction Removal
Efficiency Required: |
% |
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| Emission Limits |
| NOx: |
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| SOx: |
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| Cl: |
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| Other Limits: |
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| Other Information: |
| Minimum Stack Height: |
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| Heat Recovery Desired?: |
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| Heat Recovery Type: |
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| Heat Recovery Duty: |
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| Plot Limitations: |
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| Additional Heat Recovery
Information: |
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| Other Scope: |
Brief description of
John Zink scope |
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| PLC: |
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| Location of Analog controls: |
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| Compliance Date: |
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Project Schedule: |
| Permit Application Date: |
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| Delivery Date: |
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| Start-Up Date: |
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| Compliance Date: |
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| Special Design Considerations:
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