economics of system optimization colfax
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Economic Benefits Achieved Through Fluid System Optimization
An Open Discussion
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Cost of operation savings through System Optimization
What if?
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Cost of operation savings through System Optimization
What Matters?
– It’s not...Just the pump,
– Nor the individual components
It is…– A properly designed integral system,
– And the operation of the same
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Cost of operation savings through System Optimization
That results in an “Optimized System”…
– Which Provides for:– Efficient Operation
– Reduced Maintenance
– Enhanced Reliability
– Increased Uptime and Availability
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Cost of operation savings through System Optimization
Delivering to the end user?
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Cost of operation savings through System Optimization
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Cost of operation savings through System Optimization
And for the rest of us….
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Positive Displacement Screw Pumps
The worlds shortest pump training session..
Really the worlds shortest…
Honest!!
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Imo 3 Screw Pump
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Double Ended Pump
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Geared Twin Screw Pump
INLET OUTLET
TIMING GEARS
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Cost of operation savings through System Optimization
Ok, Who are these Colfax Guys anyway??
Well, were not just Imo Pumps any More….
That is assured!Global scope10 Separate business units15 Manufacturing locations30+ Strategic PartnersWe’ll talk a bit more later on…
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Cost of operation savings through System Optimization
Application #1
Energy savings by means of “optimizing” the system to allow for proper operation.
The issue: An operational system that has optimal pump and system efficiency at 100% turbine load. However the system efficiency is compromised at normal operating levels of 70% load.
Project main Fuel Injection pumps feeding a 110Mw Simple Cycle Peaker
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Cost of operation savings through System Optimization
The Project;
HECO (Hawaiian Electric Co.) at the Campbell Industrial Park generating station on the island of Oahu.
The prime mover at this 110-MW simple cycle power plant is a U.S. manufactured combustion turbine.
The plant is designed to operate with B100 BioDiesel renewable fuel as its primary fuel supply, a unique feature in today’s marketplace.
Clean distillate fuel will also be used for system flush prior to shutdown and will be contained in the system during extended shutdown periods.
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Cost of operation savings through System Optimization
Bypass flow return to source
Fuel inlet
Imo AK12DHZ-275E
Flow D
ivider
Fuel flow to turbine com
bustors
Pump Output Full Flow and Pressure
Control Bypass Valve
Controlled Flow Rate Dependant Upon the Power Output Loads
Inlet Filtration
250HP, 3585 RPM
Premium Efficiency
IEEE-841 Motor
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Cost of operation savings through System Optimization
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Cost of operation savings through System Optimization
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Cost of operation savings through System Optimization
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Cost of operation savings through System Optimization
Output at 100% load, 1500 psi
Distillate B100
Pump RPM 3585 3585
Viscosity 1.8 cSt 10 cSt
Delivered Flow (GPM) 203 214
BHP Required 234 234
Typical flow to turbine for 100% load
180 180
By Pass Flow 22 34
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Cost of operation savings through System Optimization
Output at 70% load, 1000 psi
Distillate BioDiesel
Pump RPM 3585 Full Motor Speed
Delivered Flow (GPM) 211 216
BHP Required 162 162
Typical Flow to turbine for 70% Load 135 135
By Pass Flow 76 81
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Cost of operation savings through System Optimization
This type of operation is prevalent in nearly all combustion turbine installations built by US based manufactures.
Well, we now do know that this type of system can easily be “Optimized” by the addition of some Colfax “Smart System Controls”!
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Cost of operation savings through System Optimization
Bypass flow returned to source
Fuel inlet
250HP, 3585 RPM
Premium EfficiencyIEEE-841 Motor
Imo AK12DHZ-275E
Flow D
ivider
Fuel flow to turbine com
bustors
Pump Output Full Flow and Pressure
Control Bypass Valve
Controlled Flow Rate Dependant Upon the Power Output Loads
Colfax “Smart System”
ControlsInlet Filtration
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Cost of operation savings through System Optimization
Pump Output at Controlled operational speeds
Distillate BioDiesel
Pump RPM 2600 Controlled Motor Speed
Delivered Flow 144 148
BHP Required 113 113
Typical Flow to turbine for 70% Load
135 135
By Pass Flow 9 GPM 13 GPM
By Pass Flow Differential 67 GPM-86% 68 GPM-81%
Horsepower Saved 49 49
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Cost of operation savings through System Optimization
Hawaiian electric rates are $.299 / Kw/HrHorsepower saved 49Equivalent kilowatts 35What are the savings?1 hour = $10.991 day = $263.721 year = $96,257.00
5 year = $481,285.00
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Cost of operation savings through System Optimization
Consider that:
Without considering inflation and fuel costs in the future the energy saved in the operation of this fairly small combustion turbine will be nearly $2,500,000.00 over the 25 year life expectancy of the plant!
And this operational scheme will work on:
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Cost of operation savings through System Optimization
Boiler Fuel Injection Pumps in Steam Turbines.
Fuel Transfer and Forwarding.
Boiler Feed and Condensate Pumps.
Any system that has a variable system flow or pressure demand is a candidate for this type of upgrade…
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Another example
A large New England Steam Turbine Plant which operates primarily on residual fuel.
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Savings
$ / MW-hr 0.065 0.15 0.20 0.25
Savings Per Year $60,191.04 $138,902.40 $185,203.20 $231,504.00
Savings Over 5 years $300,955.20 $694,512.00 $926,016.00 $1,157,520.00
Savings over 25 years $1,504,776.00 $3,472,560.00 $4,630,080.00 $5,787,600.00
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Cost of operation savings through System Optimization
Application #2– Savings gained by considering other options in equipment selection in
lieu of the “Usual Type” of equipment previously utilized.– Then when using TCO comparisons in the design stage the overall
economic benefits will be clearly evident
Project: – Pipe line, Fuel Transfer, and Unloading systems
Solution:– The use of Positive Displacement pumps in lieu of the “Obvious
Choice” Centrifugal machines.
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Cost of operation savings through System Optimization
Let’s look at a pipeline application where the operational conditions would normally call out for a multi-stage centrifugal pump….
This application is for a 4380GPM pipeline delivering a light crude oil…
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In the Oil and Gas Industry there still remains a preference for the use of centrifugal pumps (even when horribly misapplied) because….
”We can always fix them in our shops”
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Cost of operation savings through System Optimization
How about a pump that doesn’t break down?
Or, “Yes you can do an on-site repair quick and cheap”
But do you know how much it really costs to operate the equipment?
Despite the initial capital equipment costs and 5 years of parts and maintenance charges being nearly equal….
The total “Savings Gained” are:
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Cost of operation savings through System Optimization
TCO Breakdown for PD Pumps at 300 cP
19%
20%61%
TCO Breakdown for Centrif Pumps at 300 cP13%
11%
76%
Energy Costs for 5 Years "per Pump" @ 10 cents US per kW/hr: Crude oil at 300 cP $1,166,490.36 Crude oil at 300 cP $578,343.96TCO for crude oil at 300 cP $6,156,199.74 TCO for crude oil at 300 cP $4,355,990.55
•The cost of Energy saved is $1,800,209.00 over 5 years
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Cost of operation savings through System Optimization
Application #3
– Savings by means of utilizing “Optimally Designed” equipment.
Project:
– Main Lube and Seal Oil Pump for GE Frame 7-FA/FB Gas Turbines
Solution:
– The application of pump sets that were specifically designed for this type of “Mission Critical” service
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Cost of operation savings through System Optimization
The Problems
Excessive Maintenance Costs.Short Maintenance IntervalsMany Field FailuresUnresponsive SupplierOEM Turbine Manufacturer does not consider the operators cost of operation.
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Cost of operation savings through System Optimization
The Solution:To Incorporate a pump that had been from the onset, specifically designed, for “Mission Critical Application” service.
Providing:Robust designVery High ReliabilityLow maintenance requirementsExtended service intervals to coincide with planned outages.
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Cost of operation savings through System Optimization
On average the cost of maintenance of the original design pumps is from $15,000.00 to $17,000.00 per year per turbine…
A Combined Cycle installation of 2 two Combustion Turbines and one Steam Turbine can cost around $40- $45 K per year
The Savings gained by doing it right are:
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Colfax Buffalo
372A5012 Main and Auxiliary Lube Oil Pump 9FA 50Hz CTBHP Kw $ / hr $ / Yr $ / 25 Yr BHP Kw $ / hr $ / Yr $ / 25 Yr108 80.57 $9.77 $85,575.30 $2,139,382.53 113 84.30 $10.54 $92,306.31 $2,307,657.7563% 60
1050 GPM303 ft
Maintenance Major Maintenance Event Major Maintenance EventInspect / Replace Main Bearing 6 bearing service events and 1 Major serviceService interval 5.7 years Service interval 1yearCost per interval $5,000.00 Cost per interval $13,000.00Cost Over 25 years $15,000.00 Cost Over 25 years $325,000.00
Cost of at least one failure $20,000.00TCO Colfax $2,159,382.53 TCO Buffalo $2,652,657.75incl. Energie costs incl. Energie costsexcl. Purchase price excl. Purchase price
Differential $493,275.22
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Cost of operation savings through System Optimization
The Common Thread?
An economic analysis along with component or system design…
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Cost of operation savings through System Optimization
So who is Colfax?
We are:
A world leader in the development, engineering, manufacturing, distribution, service and support of pumping and fluid-handling systems…
A synergistic group of individual pump, systems, instrumentation manufactures, and “Strategic Partners”…
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Cost of operation savings through System Optimization
The world’s largest Positive Displacement Pump Manufacturer.
The 6th largest pump / fluid system manufacturer…
Global…15 manufacturing locations
Strategically located Service and Applications engineering personnel…
Our reach is Global, your contacts are local…
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Cost of operation savings through System Optimization
9 individual pump manufacturing business units
Specialized Instrumentation and Controls group
We have access to nearly every pump technology!
Skid and System design and construction expertise In US and international specifications…
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Cost of operation savings through System Optimization
Our Brands
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Cost of operation savings through System Optimization
Your pump and fluid systems design and equipment selection expertise has grown exponentially…..
No charge for opinions…
Here’s some interesting pictures…
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Cost of operation savings through System Optimization
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Cost of operation savings through System Optimization
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Cost of operation savings through System Optimization
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Cost of operation savings through System Optimization
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Cost of operation savings through System Optimization
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Cost of operation savings through System Optimization
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Cost of operation savings through System Optimization
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Cost of operation savings through System Optimization
Thank You!!!!