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QUINCY
EFFICIENCY QUOTIENT
QUINCY EFFICIENCY QUOTIENT TECHNICAL ADVANTAGES |
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ACCURATELY ANALYZES EXISTING
COMPRESSOR PERFORMANCE |
MODELS MULTIPLE PROPOSED
SYSTEM UPGRADES |
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Simultaneous recording
of all compressors analyzes
system and compressor performance duringnormal,
low and peak production demand periodsfor the
existing and proposed arrangements. |
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Designed for all brand and types of compressors
and compressor controls including rotary,
reciprocating and centrifugals |
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Determines the percent capacity and load on
each
compressor correcting performance in power and
flow for the effects of control type, discharge
pressure, altitude, and inlet temperature. |
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Corrects for the impact of system storage on
compressor efficiency in load-unload control modes. |
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Provides correction for off-design motor conditions
such as voltage, power factor and motor efficiency. |
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Remotely located compressors can be logged
and included in the analysis. |
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Allows multiple what-if
scenarios to determinethe
optimum proposed compressed airsystem
arrangement. |
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Calculates the efficiency of recommended system
modifications supporting the modified air demand
after waste is eliminated based on: |
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– new compressors including control types and
– part loaded operating conditions |
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– new air treatment equipment including dryer
– technology, purge losses, filter
pressure drop, etc. |
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– lower, more stable system pressure from automation,
– pressure flow controls, or compressor
control mode |
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– additional storage impact on compressor
– performance |
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– repairs to malfunctioning compressor controls
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ACCURATELY ANALYZES EXISTING
AIR TREATMENT EQUIPMENT |
PERFORMS A FINANCIAL ANALYSIS
BASED ON RECOMMENDED UPGRADES |
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Calculates pressure
drop across air treatment
equipment and the energy impact of reducing
that pressure drop. |
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Calculates the actual load on each dryer and
the
energy impact of dryer technology and controls,
i.e. cycling refrigerated dryers and desiccant
dryer purge controls. |
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Corrects desiccant dryer purge losses based
on
dewpoint controls and load. |
| CALCULATES
WASTE IN THE SYSTEM |
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Calculates artificial
demand based on existing
system pressure vs. lowest acceptable pressure,
adjusting for the level of unregulated in the system. |
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Adjusts desiccant purge losses for modified
controls and dryer loads. |
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Provides for all types of waste reduction
including
leak repairs, open blowing, inappropriate uses,
drain losses, etc. |
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Determines the existing
and proposed energy
consumption in kWh, kW demand and dollars. |
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System energy calculations include compressors,
compressor cooling fan motors and pumps, dryer
motors and heaters. |
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Allows for other system costs including rental
compressors, compressor maintenance, and
cooling water costs. |
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Performs a financial payback calculation based
on
the costed action plan which allows installation
estimates to be included. |
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Confirms the Existing EQ Rating and projects
the Proposed EQ Rating after the Action Plan
is implemented. |
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Provides a report which contains: |
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– Existing System Graphs of pressure, power,
and flow |
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– System Performance Summary Table
including
– optional peak and
low production loads |
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– Existing and Proposed Compressor
Performance
– and Efficiency
Tables |
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– Constituents of Air Demand Table
including
– waste reduction
opportunities |
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– Existing and Proposed Energy Costs Table
and Graph |
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– Costed Action Plan Table detailing
all
– recommended upgrades |
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– Financial Summary Table with payback calculations |
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– Efficiency Quotient Rating Summary Tables |
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