We Won 1st place internationally in the Institutional category for last year’s efforts!

My Green Labs and I2SL hosted the 2018 International Freezer Challenge see category winners here

Place Photo here

Worldwide recognition published through these media outlets:

Lab Manager Magazine, Cold Storage March 2019

Published article with participants quoted for expert advice here  

Nature Magazine feature published in Oct. 2018 (see attached PDF)

S-Labs highlights our achievements in their short-listed profiles here (PDF of short list attached)

ISEE and Facilities & Services published news releases U of I Wins Freezer Challenge & 2018 International Freezer Challenge Champions

Highlights from lab efforts in 2018

Goal for this year is to DOUBLE last year’s participation of 45 labs in 17 buildings and energy reduction, which totaled an estimated 720 kWh/day from October 2017 through June 2018. The annual total of 262,800 kWh of electricity saved during the competition is the approximate equivalent of the yearly energy used by 25 typical U.S. homes.

We can repeat the WIN; so far, the CDC is the only group to win twice in their division.

Join us

Thank you

Paul Foote

Think Globally- Act Locally

SSC convened on March 2, 2019, to discuss Spring 2019 Step 1 proposals.

This student-led project will involve the design, construction, and installation of an energy geo-structure for heating the UIUC Energy Farm, located near the southeast corner of Race Street and Curtis Road on the South Farms. This project has great potential in exploring and utilizing geothermal energy, a renewable energy alternative to fossil fuels. An energy shaft is a new technology designed to access the shallow geothermal energy (relatively constant ground temperature in the upper 30 m of the subsurface). The objective of the project is to determine the feasibility of using drilled shafts that are already being used to support structures on campus also as a geothermal heat-exchange element. Geothermal heat exchangers (closed absorber pipes) can be incorporated into underground infrastructure, e.g., drilled shafts, through which water is circulated to withdraw shallow geothermal heat (~55 °F) and transport it to the surface for structure heating or cooling.

During this meeting, the committee discussed the ActGreen micro grant proposal, applicant outreach, and Fall 2019 recruitment.

These are the meeting minutes from February 7, 2019.

This project was originally proposed by Mechanical Engineering students for Abbott Power Plant in spring 2016.  At that time, the SSC members did not want to support solar on the co-generation power plant because it uses fossil fuels.  They asked if we could use it on a different campus roof, and we considered all the large or medium campus roofs.

The SSC asked us to identify a building that could have solar added, so I reached out to Applied Health Sciences in 2016 for approval to use the Speech and Hearing Sciences Building.  Since that time, Kristine Chalifoux confirmed that the roof is strong enough for solar panels, due to a previous change in the insulation materials.  Brian Finet completed design drawings for installing solar on the full available roof, and the Architecture Review Committee confirmed the building is allowed to have solar added.  

After the engineering design work, the remaining funds were about $35K.  This fall, we received a construction estimate from Jeff Holt for upgrading the electrical system to handle a 70 kW solar PV array.  It would cost about $42K if done in conjunction with your capital project, just to get the wiring up to the roof and ready to punch through and install panels later.  Rather than ask the SSC for additional funding and an extension, I am returning the remaining dollars and putting this project on indefinite hold. 

The overall campus goals for on-campus solar generation are listed in the 2015 Illinois Climate Action Plan (iCAP), which will be updated for 2020.  The current objective is to generate 25,000 MWh/year of on-campus solar, and we are currently at about 7,000 MWh/year.  Per the direction received from Chancellor Jones, we are working on a second large-scale solar farm to meet the goal, rather than several smaller-scale projects. 

The second solar farm is planned to be about 12,000 kW in name-plate capacity, significantly more than the 70 kW rooftop array for Speech and Hearing.  Rooftop solar is still an option, and several departments continue to install them at the building scale. The design drawings are posted online through the iCAP Portal, at https://icap.sustainability.illinois.edu/project/speech-and-hearing-rooftop-solar-pvs, for future use.

The most significant development to date is that two buildings have been identified in which the material the team is work with will be installed, one is a single-story building of approximately 400 sq/ft the other has a double height space and a footprint off approximately 1,600 sq/ft that will be enclosed using the material in development.

On March 1, 2018, Morgan White, Pete Varney, and Shawn Patterson met with capital planner Trent Beane, a representative of the engineering firm, and a manufacturer’s rep from Dehart Recycling.  We discussed the project needs, and the current status of the WTS equipment.  Some notable points are listed below:

• The existing baler was installed in 1996
• Design of balers has changes a lot, with lower labor costs and alternatives to the perforator currently used at WTS.
• The power supply is probably similar to the existing power demand.

After the meeting, the engineering firm was asked to provide a formal proposal to F&S to approve and begin the design work.  Unfortunately, this process was delayed due to emergency family medical issues for Mr. Beane. 

In August 2018, a new planner was assigned, Chris Anzelmo. Anzelmo finalized the agreement with the engineering firm and arranged a kick-off meeting.  In November 2018, the engineer visited the Illinois Sustainable Technology Center (ISTC) to examine the Styrofoam densifier and gathered additional information from the WTS.

Then on December 13, 2018, preliminary drawings were shared with F&S. At that meeting, discussions included the needs for modifying the “pit” at the base of the baler entry system, adjusting the pathway width between the baler and the north wall, and recognition that locating the Styrofoam densifier at the WTS would require a building addition. Information about the HVAC system and required code updates were also reviewed.

On January 2, 2019, a baler vendor representative met with us at the WTS. They are going to look at an alternative baler that could provide the needed walkway space on the north end and use the existing pit.