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Energy Efficiency Programs August 23, 2010

Presentation to 406 Class. Energy Efficiency Programs August 23, 2010. Presented by: John Rees, PE, CEM Eric Soderberg, PE, CEM Dr. Herb Eckerlin, PE Kevin Martin, MBA. Energy Program Technical Staff. Stephen D. Terry, PhD, PE Extension Assistant Professor Phone : 919.515.1878

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Energy Efficiency Programs August 23, 2010

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  1. Presentation to 406 Class Energy Efficiency Programs August 23, 2010 Presented by: John Rees, PE, CEM Eric Soderberg, PE, CEM Dr. Herb Eckerlin, PE Kevin Martin, MBA

  2. Energy Program Technical Staff Stephen D. Terry, PhD, PE Extension Assistant Professor Phone: 919.515.1878 E-mail: sdterry@ncsu.edu Herbert M. Eckerlin, PhD, PE Professor, Director Phone: 919.515.5227 E-mail: eckerlin@eos.ncsu.edu Eric W. Soderberg, PE, CEM Energy Extension Specialist Phone: 919.795.1114 E-mail: eric_soderberg@ncsu.edu Kevin Martin, MBA Strategic Energy Manager Phone: 919.515.0903 Cell: 919.996.9978 E-mail: kevin_martin@ncsu.edu John D. Rees, PE, CEM Energy Extension Specialist Phone: 919.515.9436 E-mail: john_rees@ncsu.edu Energy_Group@ncsu.edu

  3. Presentation Outline • MAE Energy Programs • Assessment Process • Energy Systems Analyzed • Survey Procedures and Results • Comments and Questions

  4. Two Energy Efficiency Programs Energy Management Program (EMP) Industrial Assessment Center (IAC)

  5. Industrial Assessment Center (IAC) • Funded Federally by US Department of Energy (DOE) • Serving Manufacturers • Energy bills typically from $100k to $3 million • Will serve larger as well • Service Territory • North Carolina • Southern Virginia • Northern South Carolina

  6. Energy Management Program (EMP) • Funded by NC State Appropriation • Reports to NC Energy Office • Businesses Served • Manufacturers • Commercial • Governmental • Institutional • No size restrictions • Service Territory • State of North Carolina

  7. Energy Program Objectives • Save Energy • Reduce Waste • Improve Productivity • Train next generation of “Energy Engineers”

  8. Assessment Process

  9. Assessment Process ; Preliminary Information & Consultation • Onsite Preliminary Energy Diagnostic Survey (PEDS) • Identification of areas for Potential Savings Targeted System Survey • Survey of Existing Equipment • Measurement & Data Gathering • Interview O&M personnel • Identification of opportunities • Savings and Cost Analysis Report • Client Review of Report

  10. Assessment Process ; • Data Analysis & Reporting • ROI, simple payback, life cycle costing • Cost to benefit analysis, NPV, IRR • Full report delivered • Implementation Follow-up & Additional Assistance • Follow-up calls and assistance • Continued assistance as needed

  11. Purpose of a Preliminary Energy Diagnostics Survey The purpose of a Preliminary Energy Diagnostics Survey (PEDS) is to evaluate plant operations from an energy perspective, to identify and prioritize energy saving opportunities, and to recommend targeted energy surveys for equipment that offer the greatest potential for energy savings.

  12. Systems targeted during a Preliminary Energy Diagnostics Survey • Boilers • Lighting • Compressed Air • HVAC Systems • Chillers and Cooling Towers • Motors & Pumps • Preventative Maintenance • Steam Systems & Steam Traps • Process energy systems

  13. Typical Information gathered in a Preliminary Energy Study Air Compressors and Air Dryers There are 3 air compressors. There is one common air dryer. Compressors: Manufacturer: Ingersoll-Rand Model: SSRXFE200-25 Serial: FF1274U97151 Type: Rotary screw Horsepower: 200 hp Rating: 1,100 cfm Operation: 116 – 125 psig

  14. Typical Information gathered in a Preliminary Energy Study Chillers There is one water cooled chiller: • Manufacturer: Carrier • Model: 30HXC106R--661KA • Serial: 2307Q07525 • Service: Cooling water for molds • Operation: Setpoint is 48° F

  15. Electrical Use and Cost for an Industrial Facility – Data collected for a Preliminary Energy Study

  16. Water & Sewer Use and Cost for an Industrial Facility Data collected for a Preliminary Energy Study

  17. Water & Sewer Use and Cost for an Industrial Facility

  18. Typical Recommendations from a Preliminary Energy Study Summary of Recommendations: The NCSU Energy Management Program (EMP) recommends the following: • Compressed Air Study • Convert T12 task lighting to T8. Explore the possibility of replacing the 8 ft. T12 fixtures with single fixtures containing two 4 ft. T8 lamps. • Consider a Chiller and Cooling Tower Study. • Consider a Motor Study

  19. Lighting Surveys

  20. Typical Existing Lighting – T12 Fluorescent

  21. Typical Lighting in an Industrial Facility – 400 Watt Metal Halide

  22. Information Collected during a Lighting Survey Fixture quantities by type Fixture Wattage Lighting level in Footcandles Maintenance issues Electrical Rates

  23. Savings and Cost Summary from a Lighting Report Table 1. Savings and Payback for Recommendations 1 & 2 Table 2. Savings and Payback with Utility Incentives

  24. Compressed Air Surveys

  25. Industrial Air Compressors

  26. Industrial Air Compressors

  27. Industrial Air Compressors

  28. Typical Savings from a Compressed Air Survey

  29. Load Monitoring and Recommendations from a Compressed Air Study

  30. Boiler Surveys Flue Gas Analysis • O2, CO, CO2 • Stack Efficiency Operating/Maintenance Issues • Dirty Heat Exchange surfaces • Scanner failure • Temperature control

  31. Hot Water Boilers in a School

  32. Industrial Low Pressure Steam Boilers

  33. Boiler Survey Form

  34. Data Collected during a Boiler Survey

  35. Typical Results of a Boiler Test

  36. Typical Recommendations from a Boiler Report • At your next boiler tuneup, discuss the relatively high excess air level on Boiler No. 2 at low fire to determine if the air/fuel ratio can be leaner at low fire. • Boiler No. 1 currently operates more efficiently at low fire than Boiler No. 2 (this may be corrected after burner tune-ups have been performed). Consequently, Boiler No. 1 should be operated when low fire operation is required. • Tune boilers to operate most efficiently at the firing level where they operate most frequently. • Install stack thermometers in the stack to monitor flue gas temeperature. • Use portable flue gas analyzer to measure O2 in flue gas every 6 months (at typical operating loads). • Install gas meters on the individual boilers and track individual boiler fuel usage on a monthly basis. • Consider reducing steam pressure. Lower pressure in 5 psi increments and allow boiler to operate at the reduced level for several days to determine if the system operates acceptably. • Consider installing economizers to heat boiler feedwater.

  37. HVAC, Chiller, and Cooling Tower Surveys • Systems Encountered: • Small Commercial • Large Commercial • Small Industrial • Large Industrial

  38. Small Commercial HVAC Air Handler

  39. Small Commercial HVAC Air Distribution

  40. Small Commercial HVAC Heating Source

  41. Small Commercial HVAC DX (Direct Expansion Cooling) Units

  42. Large Commercial – AHUs at a Community College

  43. Air Handling Units at a Community College

  44. Air Cooled Chiller at a Community College

  45. Previously shown Air Cooled Chiller viewed from Above

  46. Large Commercial Air Cooled Chillersfor Office at an Industrial Site

  47. Industrial Air Handling System

  48. Industrial Water Cooled Chiller

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