Más contenido relacionado La actualidad más candente (15) Similar a Veros Systems on SAP (20) Veros Systems on SAP2. the Veros vision
Bring to market a breakthrough software technology solution
the will become the industry standard for the management
of the health of all electrically powered rotating assets to
maximize asset reliability, improve efficiency and ensure
energy sustainability
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3. electrically powered assets – industrial
1
Outnumber People by 10:1
Oil & Gas
Power Generation Mining
Less than 1% are Continuously Monitored
Manufacturing – Smart Grid
Discrete
Manufacturing –
Continuous
¹Harbor Research, http://www.harborresearch.com
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4. the problem
No visibility of what is happening inside the overwhelming majority of mission critical
electrically driven assets. Catastrophe is just around the corner
Major negative impact on productivity and financial performance
1. Globally over 50 million industrial electric motors and power trains.
2. Less than 1% are continuously monitored or measured.
3. They consume over 60% of the world’s electricity.
4. Failures cost US Industry $3 Trillion annually in lost production and repair costs.
5. A failure in one asset in the Oil & Gas Industry can cost over $3M a day.
6. A 1% power efficiency degradation in ONE large motor - $10,000/year
Why is this so?
No cost effective and easily deployable technology has existed until now!
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5. keys to good asset health & reliability
• Early detection of emerging problems in the motor and driven
load (both electrical and mechanical
• Measurement of motor efficiency and energy consumption
• Fast and accurate diagnoses
• Timely action to prevent failure
• Route cause analysis to detect failure patterns
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6. how does the Veros System solve these problems?
As an example let’s imagine……
• A non invasive monitor was available that you could buy for a few Dollars.
•This monitor could pick up your body’s electrical energy.
•This information is communicated 24x7 to a hosted diagnostic system.
•From this raw electrical energy the system determines developing health problems and
determines risk and pace of deterioration by using predictive analytics.
•This health intelligence is sent by way of alerts and watch lists to your mobile device of choice.
•Remedial action is suggested.
•Action is taken to put plans in place to avoid catastrophe and improve condition going forward.
Now let’s look at the Veros System……
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7. the Veros system
Available Today For All Electrically
Powered Industrial Assets
Key Features
• A non invasive monitor is installed in the motor control center in a couple of hours.
•This monitor picks up the raw electrical waveforms from the incoming power (current and
voltage)
•This information is sent 24x7 wirelessly to a hosted (or on premis) diagnostic system which can
detect from the raw electrical waveforms, any emerging health problems in the motor and
driven load (both electrical and mechanical) a year in advance or more.
•Asset health and motor efficiency elements of intelligence are produced using predictive
analytics.
•Pace of deterioration is determined to allow calculation on the severity of the problems found.
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8. the Veros system
Available Today For All Electrically
powered Industrial Assets
Integration with Enterprise Applications
•Alerts are sent to your mobile device of choice.
•Remedial action is suggested and can be managed by Enterprise Asset Management Systems
(EAM)
•Motor efficiency is reported to enable energy sustainability.
•Action is taken to put plans in place to avoid catastrophe and improve asset condition going
forward (EAM and Mobile applications).
•Historical trends are stored for future asset reliability intelligence diagnostics.
A completely integrated, cost effective OT and IT solution
The creation of the Intelligent Asset
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11. Veros – key features
• Autonomous – Automated diagnostics & assessment
• Simple – Continuous, plug-and-play solution
• Non-intrusive – Existing electrical signals only; no
sensors on or access to machines
• Preemptive – Early diagnosis of developing faults
• Comprehensive – Electrical and mechanical faults
on entire power train
• Environmental – Real-time energy consumption and
energy efficiency information
• Reliable – Reduced false alarms or missed faults
• Cost-scalable – Fleet-wide continuous monitoring
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12. motor intelligence
90+% of Motors are Induction
Electrical Mechanical
• Operational Faults • Bearings
– Voltage Unbalance – Contamination
– Other Harmonics – Vibration
– Overloading/Underloading – Misalignment
– Overvoltage/Undervoltage – Lubrication
• – Electrical discharge
Stator
– Turn-to-turn short • Rotor
– Phase-to-phase short – Rotor Bar/End-ring cracks
– Neutral-to-ground short – Unbalance
– Stator eccentricity – Eccentricity
• – Rotor bow
Winding contamination
– Cooling
• Rotor
• External Misalignment
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13. pump intelligence
Centrifugal Pumps:
• Operational Faults
– Cavitation
– Partial Flow or Low Flow Operation
– Dry Running
• Mechanical Faults
– Impeller Damage
– Bearing Degradation
– Seal Degradation
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14. energy intelligence
• Electric motor energy sub-metering
– Estimates in real-time
• Energy Consumption,
• Real Power,
• Reactive Power,
• Apparent Power, and,
• Power Factor.
– Communicates information for trending,
aggregation, etc.
– Aggregates information over time periods for
comparisons
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15. what does industry to today?
• For very expensive, critical assets, very expensive
complex vibration systems are the norm (the 1%).
• For everything else they either take the risk and run
to failure or have maintenance crews do physical
monthly checks (routes)
• Some electronic hardware solutions are available
that bolt to the asset but are not enterprise scalable
and are not enterprise software solutions that can be
part of an “Industrial Internet”……………………
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16. competitive matrix
Enterprise
Software Primarily Electronic Hardware that bolt to the Asset
GE Bently +
Veros PIP GE AnomAlert SKF Baker GE Smart Signal
System 1
Raw Electrical Raw Electrical Raw Electrical From PI Server Raw Vibration
Inputs
Waveforms Waveforms Waveforms Only Waveforms
GE System 1 GE System 1
Enterprise Integration EAM/ERP None None
(MES) (MES)
Always ON
×
Early Autonomous Depends on PI
Detection of Faults Server Data
× × ×
Energy Efficiency & Depends on PI
Management Server Data
Motors (no
Motors (VFDs), & Motors (VFDs) & Motors (no Depends on PI
Machines Covered VFDs), & Driven
Driven Loads Driven Loads VFDs) Server Data
Loads
Installation & Non-intrusive & Intrusive & Non-intrusive Non-intrusive Intrusive &
Commissioning Simple Complex & Complex & Complex Complex
× × ×
Scalability
Per Power Train Cost
$ $$ $ $$$ $$$$$$$ 16
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17. technology matrix
Veros System Vibration Analysis MCSA/ESA
Continuous Electrical Periodic or Continuous Periodic or Continuous
Inputs Waveforms. Vibration Waveforms. Electrical Waveforms.
Accelerometers, velocity or
Sensors Transformers, CTs & PTs.
proximity probes.
Transformers, CTs & PTs.
Detects Changes in Lateral/axial motion, and Lateral/axial motion from radial Lateral/axial motion; radial and
Mechanical Motion/ torsional motion; radial, axial & axial forces. No torsional axial forces. No torsional motion
Forces and tangential forces. motion detected. detected
Air-gap geometry (radial &
Structure/rotor lateral and axial Air-gap geometry (radial &
Source of Information axial) and torsional (tangential)
motion. axial) impact on magnetic field.
impact on magnetic field.
Detection through air gap Detection through structure, Detection through air gap
Mechanical Faults –
geometry change. Comparable rotor lateral motion. geometry change. Comparable to
Lateral/Axial Motion to vibration, e.g eccentricity. Comparable to electrical. vibration, e.g. eccentricity.
No detection until damage
Detection through torsional No detection unless air-gap
excites lateral/axial motion.
Mechanical Faults – excitation, e.g. bearings. Most geometry is impacted; damage
Less sensitive than electrical. No
Torsional Motion sensitive signature. Also detects must be severe. No detection of
detection of torsional resonance
torsional resonance excitation. torsional resonance excitation.
excitation.
Detection via torsional No detection until damage
Driven Load Faults excitation through coupling, excites lateral/axial motion with No driven load fault detection.
gear box, etc., e.g. seals. vibration sensors on the load.
Detection of stator electrical Only if stator changes cause Detection of stator electrical
Electrical Faults signature changes. More variety lateral/axial motion; magnetic signature changes. More variety
of faults detected at early stage. forces. Faults detected late. of faults detected at early stage.
Automated Detection Enabled through detectors; only Challenging; too many asset Challenging; too many asset
& Diagnosis motor nameplate needed. component details needed. component details needed.
Consumption and energy
Energy Management efficiency.
Not feasible. Consumption only.
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