1 / 37

7154 VFD

7154 VFD. Presentation #5 June 2002 Paul Weingartner. Application of VFDs. VFDs applied for energy savings. http://www.achrnews.com/CDA/ArticleInformation/features/BNP__Features__Item/0,1338,73944,00.html

taber
Download Presentation

7154 VFD

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. 7154 VFD Presentation #5 June 2002 Paul Weingartner

  2. Application of VFDs

  3. VFDs applied for energy savings • http://www.achrnews.com/CDA/ArticleInformation/features/BNP__Features__Item/0,1338,73944,00.html • In the hvac industry, vfd’s are usually found on motors that drive fans, blowers, pumps, cooling towers, etc. The Department of Energy reports that 64% of all electrical energy in the U.S. is consumed by electric motors.

  4. Typical energy savings • According to some studies, the addition of vfd’s to an existing system can result in a reduction in energy consumption of 30% to 60%. • ASHRAE Standard 90.1 will effectively require vfd’s on every hvac motor except the smallest ones in commercial buildings of more than 25,000 sq ft.

  5. Water pumping example • With a 25hp motor running 23 hours per day (2 hours at 100 percent speed; 8 hours at 75 percent; 8 hours at 67 percent; 5 hours at 50 percent, which is typical of the water supply industry) a VFD can reduce energy use by 45 percent.At 10 cents/ kWh, this results in an annual savings of $5,374. Source: CEC, 1999 • http://www.cee1.org/ind/mot-sys/Water_Pump_Bro.pdf

  6. Comparison of valve vs. VFD pump

  7. Observation • If the rate of electricity is $0.02 per KWHr, the chances are slim that you’ll be able to cost justify a Variable Frequency Drive for your system. However, if the electricity rate is $0.05 per KWHr or higher, you can expect to show fast paybacks for virtually any system.

  8. How is the current system being used • The Duty Cycle of your system (where the system operates and for how long) will also affect potential savings. If, for instance, the system tends to operate close to the Design Point for the majority of the time, the savings potential through speed control is limited. On the other hand, if the system is operating at reduced flows for extended periods of time, the potential savings by using VFD’s is great.  • http://www.usdrivesinc.com/payback.htm

  9. Cost savings table

  10. Centrifugal pump

  11. Money • A penny saved in NOT equal to a penny earned!! For commercial businesses, a penny saved is equal to 20 pennies earned (revenue) because the net income approximates to 5% of the revenue. • http://www.unicade.com/Articles/ACEEE99.htm

  12. Payback • Not this kind of Payback • http://us.imdb.com/Title?0120784

  13. Payback • http://www.usmotors.com/Datasheets/pds544-196.htm

  14. Using energy eff motor • S = 0.746 x HP x C x N [ 100/SE - 100/PE ] • S = Energy Savings per year @ 100% loadC = Energy Costs $ per kilowatt hour (KWH)N = Hours per year running timeSE = Standard efficiency product at full loadPE = Premium efficiency product at full load

  15. Device Net • Standards based protocol • Must supply external 24VDC to network • Typical devices • VFD • PLC • Displays • Push buttons • Photoeyes • Motor starters

  16. Devices • Each device on the network is a “node” • Max of 64 nodes (0-63) • Each device must be “commisioned” before use. • The default address is 63 and should be changed in configuration • Each node must be unique • Can’t have two nodes both with the same address

  17. RS Networx • With RSNetWorx Software for DeviceNet Network you can: • Define the devices that are present on your network. You can either manually drag/drop devices/modules or go online to a DeviceNet network and let the software determine the devices/modules that are present. • Define configuration settings for devices on the DeviceNet network through a convenient property page interface. • Define the input/output information exchanges that you want to take place on the DeviceNet network.

  18. DeviceNet features • Low Cost (Based on low cost CAN chip). • High Speed. It supports 3 baud rates: 125Kbps, 250Kbps and 500 Kbps which is believed to meet 95% of the industrial requirement. • Reliable. It uses the well proven CAN protocol incinerates with the application layers that has undergone strict conformance testing to ensure the reliability. • Support up to 64 active nodes. In theory, the node can be expended by using bridge system (such as CAN/CAN bridge or other gateway). • Easy installation. Virtually "Plug-and-Play". • http://www.warwick.ac.uk/devicenet/devicenet_faq.htm

  19. Cable lengths

  20. PLC DeviceNet • Accomplished with a DeviceNet Scanner card • 1747-SDN (for SLC500 family) • Plugs into standard slot • Takes 32 words of memory • 1 word = 16 bits = 2 bytes

  21. PLC SDN module display • Shows both error codes and current operating info • Code 92 = no power • Code 80 = idle mode • Will show its node address

  22. Communication • Using a tool such as RS Networx, each device must be given: • Node address • Told whether it is a master or a slave device • Told what info to share and who to share it with

  23. DeviceNet settings • Node address • Baud rate (125, 250, 500kb/sec) • Master/slave • Channel data • Destination node address • Masking (* careful on Powerflex drives)

  24. Troubleshooting • Always, without exception cycle power on all devices after configuration changes in networked systems

  25. Troubleshooting 2 • Look for the error codes • Always backup and grab baseline data before making changes • Check LED status indicators

  26. PLC SDN example • PLC addressing • O: is the file • O:2 is the slot • O:2.1 is the word • O:2.1/5 is the bit • Numbering starts at zero

  27. Example • If the SDN module is in slot 2 of the PLC • O:2.0/0 is the run bit for the DeviceNet module • O:2.1 is the Command word • I:2.1 is the Status word

  28. Command word (bit – function) • 0= Stop • 1= Start • 4= Direction

  29. Status word (bit – function) • 0 = Ready • 2 = Command direction • 3 = Actual direction • 4= Accelerating (1=yes) • 5 = Deaccelerating (1=yes) • 6 = Alarm • 7 = Fault

  30. Powerflex DeviceNet • By default 2 words are passed back • Status word • Speed setting • Can be configured to send back any parameter of interest • Parameters are referenced starting above #379 (the last Powerflex parameter)

  31. Simple program

  32. Tools needed for DeviceNet systems • RS Networx for DeviceNET • Careful – they sell another version for Control Logix • Protocol converter or protocol gateway • PC • RS Linx (Lite will work)

  33. RS Linx • Communication gateway for RS software and the PLC, VFD, Displays • You have to see the devices on the net with RS Linx first. Else….

  34. RS Linx versions • Lite – ships with PLC software • OEM, Gateway – can be used to connect to Active-X compliant systems

  35. What can you do with this stuff • Web • Excel

  36. RS Drive Tools • Ability to backup configuration of drives • Clone drive setups • Advanced tools – analysis • Not for average user

More Related