Toward a Sustainable Campus Part II: Improving the Efficiency of the CNS Building Energy Systems

1. Toward a Sustainable Campus Part II: Improving the Efficiency of the CNS Building Energy Systems Nitin Rajan ‘07 Physics Department Ithaca College

2. Introduction • To understand the energy use of the CNS building in order to find ways to improve its efficiency, thereby decreasing our footprint • Main Question: Can we make the building Kyoto compliant? Can we make the energy systems more efficient, saving money and decreasing our greenhouse gas emissions? Nitin Rajan, Allison Krasnow, Jon Harrod, Beth Clark

3. Focus: Heating, Ventilation, and Air Conditioning (HVAC) • Electricity Usage • Heating Fuel Usage • Reduce energy waste Nitin Rajan, Allison Krasnow, Jon Harrod, Beth Clark

4. CNS HVAC Energy Use • Heating (Boiler) energy  849 million therms (measured) • Cooling (Chiller) Energy  0.3 Million kWh/yr (estimated) • Ventilation (Fan) Energy  3 Million kWh/yr (estimated) • Energy Comparisons On average a household uses 1000 kWh of energy per month Nitin Rajan, Allison Krasnow, Jon Harrod, Beth Clark

5. Where is all this energy going? • Boilers and Chillers with huge capacities (5 MW and 2.5 MW respectively) Nitin Rajan, Allison Krasnow, Jon Harrod, Beth Clark

6. Air Handler Units (AHU)  The 3 main air handlers together supply 150 000 Cubic Feet of air per minute  Condition and distribute the air coming from outside to control inside air quality • Ventilation and Exhaust Fans to move the air through and out of the building Nitin Rajan, Allison Krasnow, Jon Harrod, Beth Clark

7. Pre-Heat Humidifying Cooling What Happens in an Air Handler AIR INTAKE Approx. 50% of heating energy Approx. 30% of heating energy Approx. 20% of heating energy To Rooms Nitin Rajan, Allison Krasnow, Jon Harrod, Beth Clark

8. HVAC System Nitin Rajan, Allison Krasnow, Jon Harrod, Beth Clark

9. Fume Hoods Nitin Rajan, Allison Krasnow, Jon Harrod, Beth Clark

10. Fume Hoods • One source of energy waste identified • Around 100 of them in CNS building • Around 30 were on unnecessarily every time we ran a check Nitin Rajan, Allison Krasnow, Jon Harrod, Beth Clark

11. Energy Consumed by Fume Hoods • Difficult to determine how long they are actually left on • Weather conditions vary day by day • For a fume hood left on UNNECESSARILY for 10 hours on a particularly cold day, Energy wasted = 100-300 kWh • Which represents 3-9 days of energy use by an average house Nitin Rajan, Allison Krasnow, Jon Harrod, Beth Clark

12. Impact of one fume hood Here is how much energy they waste • Cost in dollars: $7 for that one day • Cost in GHG emissions: 79 lbs of CO2 for that one day Nitin Rajan, Allison Krasnow, Jon Harrod, Beth Clark

13. Answer to Main Question • Yes, we can work towards making this building Kyoto compliant • Turning off fume hoods represents a huge first step in decreasing CO2 emission x% reduction in annual CO2 emission just from turning fume hoods off Nitin Rajan, Allison Krasnow, Jon Harrod, Beth Clark

14. Next Steps • Request to Lab users:  Turn the fume hoods off if you do not need them  Sensitize other people as to how wasteful fume hoods can be if not used wisely • More regular checks to be performed • Further analysis of the system Nitin Rajan, Allison Krasnow, Jon Harrod, Beth Clark