PUBLIC WATER INFRASTRUCTURE PLANT EFFICIENCY PROGRAM

https://tap.istc.illinois.edu/programs/wastewater-treatment-plant-efficiency-program/

The link above is for the Public Water Infrastructure Plant efficiency Program in Illinois. Illinois EPA’s Office of Energy is teaming up with ISTC and Smart Energy Design Assistance Center (SEDAC) to help local municipalities reduce the cost of water and wastewater treatment. SEDAC and ISTC will provide free energy usage assessments to publicly-owned water treatment and wastewater treatment plants.

The following are the criteria for an assessment:

  1. Be located in Illinois and owned by the State of Illinois or an Illinois unit of local government;
  2. Allow SEDAC and ISTC access to the treatment facility;
  3. Be willing to share facility information with SEDAC, ISTC and Illinois EPA; and
  4. Share the final assessment report with the Illinois EPA.

Click the Link above to apply now!

 

March 2023 APEC Southern Illinois KiloWatch

March 2023 KiloWatch

Inflation Reduction Act – Ok What Now?


March 1, 2023


By Sid Daller


Building on other major changes in the regulatory world related to the energy transition, we have recently begun seeing the impacts of what this may mean on 2023 tax reporting and beyond.


With implications on both the Business and Individual side of things, I’m going to focus on a few key areas that this act focuses on and how you and those you know can benefit.
Full Disclosure: As always, check with your accountant on this stuff, that’s one hat that I do not wear


One of the biggest focus areas are clean energy vehicles. Tax credits are available up to $7,500 with some exceptions and qualifications (fairly similar to years past) but improved as EV prices continue to fall particularly in the sedan segments, making these tax credits more lucrative when comparing to final sticker prices. More importantly, there is additional tax credits now available for used electric vehicles at a rate of 30% up to a maximum credit of $4,000.


Outside of clean vehicle tax credits, there is an updated Energy Efficient Home Credit available from 2023 to 2034 for anything from exterior doors, to insulation, to energy audits, to energy efficient HVAC, and others, mostly with 30% tax credits up to a specific limit.


Be sure to be considering these incentives for any big projects you are planning in 2023!


Best,
Sid Daller

March 2023 APEC Southern Illinois Chapter Meeting

APEC March 2023 Presentation

Dr. Bailey is CEO and Founder of Agriwater, an early stage start-up that converts animal waste into clean water and profit. Dr. Bailey’s company has been awarded over $500k in funding and support to commercialize her technology with Oak Ridge National Lab in Tennessee. She is the only second African-American woman to recieve a Ph. D. in Agricultural and Biological Engineering from the University of Illinois Urbana-Champaign in 100 years. She enjoys teaching and training youth in engineering, agriculture, business, and music. Dr. Bianca Bailey has also been playing music for over 20 years with instruments such as saxophone, flute, and clarinet. Her style can be described as a mashup of binaural electro-jazz.

February 2023 APEC Southern Illinois Chapter Meeting

APEC February 2023 Presentation

Topic: High Performance Space Heating for High Bay Buildings

Presenter: Randy Niederer

Randy is an Energy Ambassador at Cambridge Air Solutions. He has been involved in the HVAC industry for the majority of his career. In this presentation, he discussed some of Cambridge’s technologies to address more energy efficient Space Heating for High Bay Buildings. Check out the presentation in the attached PDF of the PowerPoint above!

February 2023 APEC Southern Illinois KiloWatch

GREEN + “GREEN” = A GREAT DEAL FOR EVERYONE

By: Larry Erwin

A major drawback to popular types of renewable energy generation (solar and wind) is that they require lots of space to generate substantial quantities of usable power.

While coal-fired or nuclear plants have fixed footprints of hundreds of acres, they generate large quantities of power, with the same being true for geothermal and hydropower sources.

Wind and solar installations need to be in locations with reasonable access, but without taking large swaths of land otherwise used more feasibly in terms of revenue generation.

Large wind farms in populated rural agricultural locations might have hundreds of turbines spread over a large area. The farmer owning the land below each only has to sacrifice a small percentage of acreage normally used for grazing or growing crops. The trade-off on that acreage loss is the monthly lease payment that’s received.

On the other hand, solar farms, while generally receiving acceptance by the general public, still have the issue of sheer panel coverage area required to generate electricity in large quantities. But, thinking outside the box, what if…?

Some estimates are that currently up to 30% of fossil fuel use and 70% of water consumption relate to crop production. Could we somehow combine sciences – physical (solar) and life (botany/zoology) – to create “green” benefits in both areas? And, could this be one step toward more efficiently and effectively feeding an ever-growing world population? Meanwhile, farmers might give up only very small amounts of pasture or tillable acreage, all the while receiving the benefit of energy generation that could be used to help offset energy costs of their farming operations or even to sell back to the grid. Voila! Welcome to the world of “agrivoltaics”.

An emerging trend is to combine solar installations with areas where agricultural production (livestock grazing or crop cultivation) might otherwise seem to be the highest and best use of acreage.

For pasture areas, the solar installation structure can be adapted to support grazing by smaller animals (chickens, geese, ducks, or sheep) or larger ones (cattle, pigs, horses, or goats). In areas where alfalfa or other grass crops are grown, there is a possibility for vertical panels that still allow for harvesting by larger agricultural equipment.

Some food crops (especially certain fruits) can actually benefit from protection provided by a solar installation structure. This includes protection from wind, hail, and excessive sunlight (yes, some plants are scorched by excessive periods of direct sunlight). There’s also the effect of the Light Saturation Point, beyond which additional sunlight provides no benefits and may, in fact, be a detriment (for instance, creating higher moisture requirements as the plants “sweat” and become “thirsty”). Truthfully, the potential for water savings alone might outweigh all of the other benefits!

Since some plants are shade-tolerant, while others are shade-intolerant, adapting the style and arrangement of panels to the crop to be grown can easily be accomplished.

Not only are there benefits for the plants, but also for the solar panels themselves. Some data shows that panel efficiency could improve by up to 10% due to the cooling effects of having the plants beneath them.

For a quick look at some of the research and potential benefits of agrivoltaics, check out the videos below. The first three (by our friends Matt Ferrell of “Undecided”, Dave Bourlace of “Just Have A Think”, and Ricky Roy of “Two Bit da Vinci”) each give a general overview; watch at least one of them (all three if you have the time, since each does provide some unique information). Then, the next two show some of the promising work done by the National Renewables Energy Lab and Oregon State University’s College of Agriculture Sciences.

Undecided: https://www.youtube.com/watch?v=lgZBlD-TCFE

Just Have A Think: https://www.youtube.com/watch?v=2ue53mBUtNY

Two Bit da Vinci: https://www.youtube.com/watch?v=4GE7hgzLmic

NREL: https://www.nrel.gov/news/video/nrels-agrivoltaics-research-combining-solar-energy-with-agriculture-text.html

Oregon State: https://agsci.oregonstate.edu/newsroom/sustainable-farm-agrivoltaic

January 2023 APEC Southern Illinois Chapter Meeting

APEC January 2023 Presentation

Topic: PY23 Business Program Updates

Speaker: Larry Erwin

Larry Erwin has been involved with the Illinois Ameren Energy Efficient program for close to 9 years now as an Energy Advisor. The Illinois Ameren Energy Efficient program has lots of great opportunities for monetary and energy savings for commercial and residential customers with even more opportunities in 2023. In the attached presentation document above, Larry discussed many of the measures and opportunities for personnel interested in pursuing the measures shown. Feel free to contact Larry or anyone in the program to learn more about how Ameren can save you money! The following is a link to the website to also learn more about the program: https://amerenillinoissavings.com/

November 2022 APEC Southern Illinois KiloWatch

POOP INTO POWER???

November 1, 2022
By Bill Auksel

This topic kind of flows nicely from last week’s presentation (sorry, had to do it). I conducted an experiment shortly after switching careers. My best friend had taken a new position and is now responsible for 20 branches in six states (pretty sharp guy). He asked what I was up to and I told him “I want to utilize anaerobic digestion and combined heat and power to convert biowaste into an energy source and revenue stream for municipalities.” He kind of gave a pause and said: “That’s really great Billy.”

After almost 40 years of friendship, I knew that was code for “you lost me after the first three words.” Then I said that I wanted to turn “Poop Into Power” and he quickly replied: “Oh, I get it, use the gas from the waste to run a generator– that makes sense.”

And it really does. And it really is that simple. (Note to self: Less Wordy. Less Nerdy).

We often lose sight of the fact that many of the solutions to combat the immense and complex issues of global warming and climate change can come from something so simple and so small. We generate a lot of waste that goes to what we currently refer to as Wastewater Treatment Facilities where it usually costs a lot of money (that’s why you get the bill silly!) to clean it up and release it back to the fishies.

If that facility has an anaerobic digester to create biogas which is mostly methane, it can be refined and used as a fuel for cars or trucks (a fleet of city vehicles running on CNG?), in some instances sold back into the supply chain, or used to produce electricity to run the plant (or maybe even sell!). I won’t go into all the other resources that can be recovered (and there are many) – wastewater itself contains 10 times the energy needed to treat it!

 

There are almost 15,000 wastewater treatment plants in the US. Not all have ADs or are suited for one, but think about the possibilities…

Now, what did we eat to make all that waste? Without arguing the virtues or ethics of anybody’s diet, there are a lot of meat eaters out there and that means lots of livestock. Livestock means poop – and lots of it!!!

I don’t need to throw a statistic at anybody to make you think about that one – I drive by several farms and lagoons every day (okay, I lied – 2,153 hog farms in Illinois). Imagine if we harnessed the power of all of that poop!?!

It really is that simple.

Some cool stuff to check out:

Poop to Power: Turning Wastewater into Clean Energy | Portland.gov

Community Hauling & Anaerobic Digesters (TEACH AD) | Energy Resources Center |  University of Illinois Chicago (uic.edu)

Combined Heat & Power Services | Energy Resources Center | University of Illinois  Chicago (uic.edu)

Is Poop Power The Future Of Renewable Energy? (offgridliving.net)  Massachusetts farm turning cow poop into power and profit (msn.com)  Turning poop into power, not pollution | PBS NewsHour

Towards resource-efficient and sustainable wastewater treatment systems – Dr. Veera Gnaneswar Gude – Illinois Media Space

Public Water Infrastructure Workshops and Webinars – SEDAC | Smart Energy Design Assistance Center at The University of Illinois, Urbana-Champaign

Public Water Infrastructure Plant Efficiency Program – ISTC (illinois.edu)

December 2022 APEC Southern Illinois KiloWatch

Automated System to Find Air Leaks on Locomotives

December 2, 2022

By: Craig Ziegler

Compressed air is a widely used fuel on locomotives. From air brakes to valve actuation to radiator shutters, it’s a crucial fuel to have on board any locomotive. As most know, air leaks are always common in any compressed air system, and the locomotive industry is no different. An estimated 2-3% is lost in vehicle efficiency due to air leaks on the locomotives. Overall, air leaks provide a significant increase in fuel consumption for locomotives which requires them to run more often, burn more fuel, and lower the lifespan of the machines.

Currently, finding air leaks on locomotives is a timely process. They are manually discovered, and it can be potentially dangerous for the workers. To fix this issue, a system using audio detection technology, cameras, and machine learning to autonomously detect and report leaks occurring on the train. The microphones can detect frequencies from 30-45kHz which is the most ideal for detecting compressed air leaks. Also, the instrument works with a visual spectrum camera and they both have machine learning algorithms implemented that help identify air leaks from other surrounding noises.

To conclude, this system should greatly reduce the compressed air system’s performance, reduce mechanical personnel burden, lower fuel spend for locomotives, and lower greenhouse gas emissions.

 

https://www.sciencedaily.com/releases/2022/11/221110101834.htm

https://www.swri.org/press-release/swri-develops-automated-system-detect-compressed-air-leaks-trains