1 / 64

U. S. Department of Energy/American Recovery and Reinvestment Act (ARRA) Crossroads Smart Grid Training Project (CSGTP)

U. S. Department of Energy/American Recovery and Reinvestment Act (ARRA) Crossroads Smart Grid Training Project (CSGTP) Principle Investigators: Thomas J. Snyder Rebecca A. Nickoli, Ed.D . Project Director: Sherm Johnson. Ivy Tech Community College.

myrilla
Download Presentation

U. S. Department of Energy/American Recovery and Reinvestment Act (ARRA) Crossroads Smart Grid Training Project (CSGTP)

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. U. S. Department of Energy/American Recovery and Reinvestment Act (ARRA) Crossroads Smart Grid Training Project (CSGTP) Principle Investigators: Thomas J. Snyder Rebecca A. Nickoli, Ed.D. Project Director: Sherm Johnson

  2. Ivy Tech Community College • Nation’s largest singly accredited statewide community college system

  3. Ivy Tech Community College • Nation’s largest singly accredited statewide community college system • Serving over 200,000 students annually

  4. Ivy Tech Community College • Nation’s largest singly accredited statewide community college system • Serving over 200,000 students annually • 14 Operating Regions

  5. Ivy Tech Community College • Nation’s largest singly accredited statewide community college system • Serving over 200,000 students annually • 14 Operating Regions • 30 Campus Locations

  6. What is Smart Grid? The modernizing of the electric power transmission and distribution system to maintain a reliable, secure infrastructure that will meet growth of future demand and can achieve economic, efficiency, and environmental goals.

  7. Purpose of Smart Grid?*

  8. Purpose of Smart Grid?* • Reduce peak demand by actively managing consumer demand.

  9. Purpose of Smart Grid?* • Reduce peak demand by actively managing consumer demand. • Balance consumer reliability and power quality needs.

  10. Purpose of Smart Grid?* • Reduce peak demand by actively managing consumer demand. • Balance consumer reliability and power quality needs. • Mine energy efficiency opportunities proactively.

  11. Purpose of Smart Grid?* • Reduce peak demand by actively managing consumer demand. • Balance consumer reliability and power quality needs. • Mine energy efficiency opportunities proactively. • Improve overall operational efficiency.

  12. Purpose of Smart Grid?* • Reduce peak demand by actively managing consumer demand. • Balance consumer reliability and power quality needs. • Mine energy efficiency opportunities proactively. • Improve overall operational efficiency. • Seamlessly integrate all clean energy technologies.

  13. Purpose of Smart Grid?* • Reduce peak demand by actively managing consumer demand. • Balance consumer reliability and power quality needs. • Mine energy efficiency opportunities proactively. • Improve overall operational efficiency. • Seamlessly integrate all clean energy technologies. • * Source: GridWise Alliance

  14. Grid Modernization*

  15. Grid Modernization* • Energy Storage - regulation and load shaping

  16. Grid Modernization* • Energy Storage - regulation and load shaping • Load Management - peak load shedding

  17. Grid Modernization* • Energy Storage - regulation and load shaping • Load Management - peak load shedding • Renewable Integration - variability & intermittence

  18. Grid Modernization* • Energy Storage - regulation and load shaping • Load Management - peak load shedding • Renewable Integration - variability & intermittence • System Operation - coordination - national to nano-scale • Cyber Security & Physical Security – Securing physical • infrastructure & two-way communications • *Presentation of Dept. of Energy Secretary Steven Chu 9/23/10- GridwiseGlobal Forum

  19. Synopsis Project Investment: Federal Government: $4,699,353 Partners Cost Share: $4,699,353 Total Project: $9,398,706 Project Duration: 36 months beginning 7/1/10. Concludes 6/30/13 Partners:Ivy Tech Community College- Lead Purdue University IBEW Joint Apprenticeship Training Committees (JATC) (8) Sheet Metal Workers JATC

  20. Areas of Training/Education Emphasis

  21. Areas of Training/Education Emphasis • Incumbent Workers (non-credit): Utilities, Related Industry –Silver Tsunami..51% expected to retire in five years

  22. Areas of Training/Education Emphasis • Incumbent Workers (non-credit): Utilities, Related Industry –Silver Tsunami..51% expected to retire in five years • Academic Courses (credit): Capacity building

  23. Areas of Training/Education Emphasis • Incumbent Workers (non-credit): Utilities, Related Industry • – “Silver Tsunami”..51% expected to retire in five years • Academic Courses (credit): Capacity building • Apprenticeship/Journeyman (credit)

  24. External Advisory Board

  25. External Advisory Board • Delphi • Indianapolis Power & Light/AES • Vectren • Indiana Statewide Association of Rural Electric Cooperatives • Northern Indiana Public Service Company (NIPSCO) • Midwest Independent Transmission Service Operator • Duke Energy (Indiana) • Louisville Gas & Electric • Indiana Michigan Power/AEP • Indiana Municipal Power Agency • General Electric

  26. Ivy Tech: Objectives

  27. Ivy Tech: Objectives • Develop Industry-driven training content for delivery to incumbent utility workers • (Corporate College).

  28. Ivy Tech: Objectives • Develop Industry-driven training content for delivery to incumbent utility workers • (Corporate College). • Develop, modify, update ITCC academic courses relevant to Smart Grid. • (Existing degree, certificate programs)

  29. Ivy Tech: Objectives • Develop Industry-driven training content for delivery to incumbent utility workers • (Corporate College). • Develop, modify, update ITCC academic courses relevant to Smart Grid. • (Existing degree, certificate programs)

  30. Ivy Tech: Objectives • Develop Industry-driven training content for delivery to incumbent utility workers • (Corporate College). • Develop, modify, update ITCC academic courses relevant to Smart Grid. • (Existing degree, certificate programs) • Place Smart Grid relevant courses on-line (Distance Education)

  31. Ivy Tech: Objectives • Develop Industry-driven training content for delivery to incumbent utility workers • (Corporate College). • Develop, modify, update ITCC academic courses relevant to Smart Grid. • (Existing degree, certificate programs) • Place Smart Grid relevant courses on-line (Distance Education) • Provide scholarship stipends for students in Smart Grid relevant career training.

  32. Ivy Tech: Objectives • Develop Industry-driven training content for delivery to incumbent utility workers • (Corporate College). • Develop, modify, update ITCC academic courses relevant to Smart Grid. • (Existing degree, certificate programs) • Place Smart Grid relevant courses on-line (Distance Education) • Provide scholarship stipends for students in Smart Grid relevant career training.

  33. Ivy Tech: Objectives • Develop Industry-driven training content for delivery to incumbent utility workers • (Corporate College). • Develop, modify, update ITCC academic courses relevant to Smart Grid. • (Existing degree, certificate programs) • Place Smart Grid relevant courses on-line (Distance Education) • Provide scholarship stipends for students in Smart Grid relevant career training. • Purchase training labs/equipment to build Smart Grid training capacity.

  34. Ivy Tech Regions (9) Northwest* North Central* Lafayette* Central Indiana* Columbus* East Central Northeast Sellersburg Bloomington Energy Technology Electronics & Computer Technology Industrial Technology Computer Information Systems/Technology Information Security

  35. Ivy Tech Achievements

  36. Ivy Tech Achievements • Developed Smart Grid 101 Series: Overview (2), Distribution Automation (6), Smart Meters (2), Substation Automation (6)

  37. Ivy Tech Achievements • Developed Smart Grid 101 Series: Overview (2), Distribution Automation (6), Smart Meters (2), Substation Automation (6) • 27 courses have been developed/modified

  38. Ivy Tech Achievements • Developed Smart Grid 101 Series: Overview (2), Distribution Automation (6), Smart Meters (2), Substation Automation (6) • 27 courses have been developed/modified • 11 courses are being developed for on-line delivery

  39. Ivy Tech Achievements • Developed Smart Grid 101 Series: Overview (2), Distribution Automation (6), Smart Meters (2), Substation Automation (6) • 27 courses have been developed/modified • 11 courses are being developed for on-line delivery • 246 scholarship stipends have been awarded to-date

  40. Ivy Tech Achievements • Developed Smart Grid 101 Series: Overview (2), Distribution Automation (6), Smart Meters (2), Substation Automation (6) • 27 courses have been developed/modified • 11 courses are being developed for on-line delivery • 246 scholarship stipends have been awarded to-date • $755,873 invested in training labs/equipment • 9,838 enrollments in ITCC Smart Grid training

  41. Purdue • Develop Smart Grid courses for delivery in undergrad and grad programs. Developing a graduate Smart Grid certificate

  42. Purdue • Develop Smart Grid courses for delivery in undergrad and grad programs. Developing a graduate Smart Grid certificate • Develop/create a unique website that will house Smart Grid content developed within the grant and from outside sources.

  43. Purdue • Develop Smart Grid courses for delivery in undergrad and grad programs. Developing a graduate Smart Grid certificate • Develop/create a unique website that will house Smart Grid content developed within the grant and from outside sources. • Create interactive role-playing game to create interest in the ideas and concepts of Smart Grid..similar to Second Life.

  44. Purdue Achievements • Developed 10 Smart Grid courses for delivery in undergrad and grad programs. Enrolled 389 students to-date.

  45. Purdue Achievements • Developed 10 Smart Grid courses for delivery in undergrad and grad programs. Enrolled 360 students to-date. • Building a website to house Smart Grid content for access by interested parties.

  46. Purdue Achievements • Developed 10 Smart Grid courses for delivery in undergrad and grad programs. Enrolled 360 students to-date. • Building a website to house Smart Grid content for access by interested parties. • Developing a Smart Grid interactive role-playing game.

  47. Purdue Achievements • Developed 10 Smart Grid courses for delivery in undergrad and grad programs. Enrolled 360 students to-date. • Building a website to house Smart Grid content for access by interested parties. • Developing a Smart Grid interactive role-playing game. • Developing Integrated Smart Energy Technology (INSET) Lab to instruct on batteries, electric vehicles, EV charging, vehicle-to-grid connections, and distributed automation of alternative energy sources (solar, wind, bio-fuel, etc) into the grid

  48. Purdue Achievements • Developed 10 Smart Grid courses for delivery in undergrad and grad programs. Enrolled 360 students to-date. • Building a website to house Smart Grid content for access by interested parties. • Developing a Smart Grid interactive role-playing game. • Developing Integrated Smart Energy Technology (INSET) Lab to instruct on batteries, electric vehicles, EV charging, vehicle-to-grid connections, and distributed automation of alternative energy sources (solar, wind, bio-fuel, etc) into the grid • Developing the Purdue Green Energy Certificate, integrating Smart Grid, diesel hybrid, and electric vehicle courses, for graduate students.  

  49. Purdue Achievements • Developed 10 Smart Grid courses for delivery in undergrad and grad programs. Enrolled 360 students to-date. • Building a website to house Smart Grid content for access by interested parties. • Developing a Smart Grid interactive role-playing game. • Developing Integrated Smart Energy Technology (INSET) Lab to instruct on batteries, electric vehicles, EV charging, vehicle-to-grid connections, and distributed automation of alternative energy sources (solar, wind, bio-fuel, etc) into the grid • Developing the Purdue Green Energy Certificate, integrating Smart Grid, diesel hybrid, and electric vehicle courses, for graduate students.   • Collaborate with industry in data acquisition from EV charging stations for enhanced student training on batteries, charging stations and grid interface.

More Related