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| For more information,
please contact Mee Industries Inc. |
International:
+1.626.359.4550 |
Phone:
1.800.732.5364
626.359.4550 |
Fax:
626.359.4660 |
E-mail:
info@meefog.com |
Mailing Address:
204 W. Pomona Avenue,
Monrovia, California 91016 |
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TECHNICAL LEADERSHIP THROUGH RESEARCH
& DEVELOPMENT
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Computer Simulation Studies
& Schematic For GT Inlet Air Cooling
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In order to understand the concepts of power
augmentation, it is helpful to review the thermodynamics
and dependency of inlet temperature and its effect
on output and efficiency.
These design parameters are arrived at by simulating
the existing situation at the plant, climatic conditions,
budget limitations, power output expectations, and
project economics.
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Criteria For Inlet
Cooling Systems
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Climatic Profile.
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Installed Cost In Terms
of Incremental Power Increase. |
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Amount of Power Gained
By Means of Cooling. |
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Fuel Costs and Costs of
Incremental Power. |
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Projected O&M Costs
For The System. |
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Environmental Impact.
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Potential Impact on Existing
Emissions licensing. |
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Related
Links
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Brochure:
Gas Turbine Inlet Air
Fogging.
 Download
PDF
White Paper:
A Comparative Guide
to Inlet Air Cooling Technologies.
Download
PDF |
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GT Pro Simulation
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Computer modeling
of customers specific site to calculate performance
boost.
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CFD Studies of Gas Turbine
Inlet Ducts
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CFD simulation
of customer inlet duct behavior for optimization of
MeeFog nozzle arrays. CFD studies minimize problems
and ensure uniform distribution into the gas turbine
inlet. Optimal location of nozzles and their angles
are derived by CFD studies.
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MeeFog
Concept
HVAC