A good analysis of energy storage: Battery U
An example of Li ion Battery: Home Depot
Lithium Ion Batteries: Wikipedia
Power Wall: Specs
Pika Energy: Specs
It is not enough to produce power! Storage and Energy Recovery
Evaluating Energy Systems in Cars
Energy storage has revolutionized how we produce and use energy. One of the best examples is the Electric Car. A few years ago King and Donihue each needed a new car. This is what we learned from our purchasing research.
As I was investigating car options I visited the local car dealerships and test drove a number of cars. Being an unrepentant techno geek I asked why the Prius gets better fuel efficiency in the city rather than the highway. I also wanted to know why the diesel VW Golf had better fuel economy than the gasoline version. The car sales folks were clueless. Clearly not a product of a liberal arts education. I started to do some digging to get the answers to my questions.
Cars move when we apply power to the wheels (Read about horsepower). Traditionally, the power came from an internal gasoline engine. Today we have cars powered with gasoline, diesel, and electric engines. This is what I learned starting with a conventional gasoline engine:
Another Example of the Hybrid Drive
If we assume the transmission is close to 100% efficient we can calculate the maximum efficiency of an internal combustion engine driven car based on the Carnot equation and the maximum temperature stability of steel. An ideal internal combustion engine would have an efficiency of 37%, but in practice it is often half this value (Read more about gasoline engines). Diesel Engines are more efficient than gasoline engines (Read about Diesel Engines). Electric motors have efficiencies of over 85% (reference).
The three videos below illustrate the engineering behind the superior fuel economy of hybrid electric cars.
https://youtu.be/4CFxQGWAaho
Read more about Toyota hybrid drive train. It is important to note that the Toyota V uses a combined electric/gasoline engine with 100% of the energy from the car coming from gasoline!
Economics of Pollution
Politics of pollution: current event – largest coal plant in the US likely to close
Beaver Ridge
Lab, Monday April 16, 2018
Assignment: (due 4/23/18) Use SAM to model the energy production and financial return of the Beaver Ridge wind farm. Hand in an Excel file of the modeled cash flow for Beaver Ridge.
Beaver Ridge wind farm tour
2013 Sound Study
Modeling Wind Energy in SAM (instructional video)
Federal Tax Incentives to feed into SAM
Keeping the Heat Where it Belongs
Resources
LBL Home Energy Saver Pro
Department of Energy Home Energy Resources
Energy audit for Prof. Donihue’s home
Let’s Model Heat Flows
4/5/2018
Developing a thermal heat storage model and an examination of potential food production
Bioshelter Introduction: Slides; Growing Spaces Video links
Green House Heat Budget diagrams
Green House Heat Budget 2018 V4
Exam Information
Your take-home exam is due in class on April 10th
Instructions
- The exam must be your own work.
- You may use only your own notes and non-human resources from the internet to answer the questions.
- Show your calculations for all of your work and hand in your answers to these questions at the beginning of class on Tuesday, April 10th.
- Email your Excel spreadsheet from problem #5 (and any of the other problems) to Professor King and Professor Donihue.
You’ll find the Excel spreadsheet from the March 15th lecture on evaluating a ground sourced heat pump system here.
4/1/2018 Home Heating Systems
Don’t Get Steamed Over Home Heating Costs
The average Maine homeowner spends between $2000 and $5000 per year on fuel to heat a family home. Added to this annual expense is the amortized cost of purchasing and maintaining a heating system which can be as high 25% of the annual fuel price. Efficiency Maine has an excellent fuel cost comparison tool to allow consumers to compare current fuel costs for a typical Maine home, but not all heating system decisions come down to cost. The optimal heating system choice will depend on age and design of the home, existing heating system, fuel availability, service and maintenance costs, and home owner desire to reduce carbon production.
System 2000 Accel Gas Condensing Boiler: http://www.energykinetics.com/accel-cs-condensing-boiler.shtml
System 2000 Oil Boiler: http://www.energykinetics.com/system2000-quietest-most-efficient-boiler.shtml
Kedel Boiler: http://kedelboilers.com/meet-kedel/our-pellet-boiler/
Mitsubishi Heat Pump: http://www.mitsubishicomfort.com/
3/13/18: Motors and Pumps – go with the flow
Electricity I: Electrical Power Generation
Electric Grid, Transformer, Household wiring, Electrical Panels 101
Other sources of Electricity: Fuel Cells, Solar Cells
Notes: DWK Notes
Geothermal HVAC systems
Ten Myths About Geothermal Heating and Cooling
Some environmental impact and payback period estimates for geothermal HVAC, GreenHouse-Gas-Savings
More examples of how a Heat Pump works:
Interesting readings on geothermal energy production
Iceland plans to get energy from magma
World’s first Magma-EGS system created
Geothermal power plants in California
March 12th Lab
Colby’s sustainability coordinator will provide an introduction to her work here and help frame your final projects in terms of relevant information we might provide and questions to be answered about the energy systems in SSW.
Watch this video on creating a loan financing template in Excel
In-lab assignment
Other Resources: A very good article on PV-Battery Systems – AKA Solar Power Isalnds.
March 9, 2018
Maine Huts & Trails overnight
Meet behind the Keyes building at 1pm with your gear