Environmental Biology (ECOL206) 2007, Bonine and Tyler Energy This week in lecture we have been talking about human energy use and its affect on the environment. To gain a more personal understanding of how the choices we make can have important impacts, we are going to estimate the annual energetic and monetary costs of some aspects of your daily life. We will be focusing on the energy involved in your food, transportation, and electric usage. We will also be talking about different forms of energy, and their true costs. Rather than have your instructors lecture to you for the next 3 hours, we would like for you to lead the lab, and teach your classmates and instructors a thing or two! We will split the labs into three groups, each of which will give a presentation at the end of class about their topic. You will have time in class to do most of the research required and get your presentation together. You will use data from your classmates, Anna will have some books, articles, and other information available in the lab, and you will also have time to search the web.Before coming to lab you will need to spend a few minutes thinking about your food consumption, how far you typically drive, your consumption of electricity, and energy efficiency.Bring your information to lab to share with the group. If you know of some great resources for energy information, please bring them, too. Please look over the questions for discussion at the end of the lab. Before coming to lab answer the following BOLD numerical questions and BRING youranswers to lab to provide the data for the class.Transportation1) Determine your weekly gasoline usage. Don’t forget to include the miles to school, work, shopping, recreation, movies, bars, etc. If you car-pool, make a note of this and reduce your estimate by an appropriate amount.For cars, motorcycles, scooters: Divide the miles driven each week by the miles per gallon of your vehicleFor Sun-Tran users: Divide the miles ridden each week by 2.3 miles per gallon, and divide that by the number of people typically on your busGallons of Gasoline per Week: The transportation group will compile the transportation data from the class, estimate an annualusage and cost, and discuss alternative fuels.Food Corn products are a huge proportion of the American diet, either directly as corn-based food items or additives or indirectly through animal feed. We will use corn as an indicator of how much energy our diets require.Page 1Environmental Biology (ECOL206) 2007, Bonine and Tyler2) Estimate the pounds of corn, beef and chicken products you consume each week. Take a look at the labels on your processed food to add in the amount of high-fructose corn syrup in things like regular sodas (use the grams of carbohydrates in the soda and convert to pounds), pasta sauce, and peanut butter. If possible, differentiate between organic versus conventionally grown amounts.Pounds of corn products:Pounds of beef:Pounds of chicken:The food group will compile the food data from the class, and will compare organic versus conventionally grown energy costs.Electricity3) Determine your weekly electrical use. If you get an electric bill, give a monthly average kilowatt hour usage along with the rest of the information below. a) Incandescent light bulbs (ILBs) account for 10-15% of the electricity usage in a typicalhousehold. Multiply the number of incandescent light bulbs in your home, by their wattage, and multiply that by the number of hours they are used per week.Weekly Watts of energy used for ILBs:b) Appliances –use the information in the table at the end of the lab to estimate your weekly electrical use for appliances. Multiply the watts listed for the appliance by the number of hours it is used per week.Weekly Watts of Energy Used for appliances:This group will convert the watts to kWh and relative amounts of fossil fuel used, and also discuss alternative energy forms.Page 2Environmental Biology (ECOL206) 2007, Bonine and TylerEnergy Efficiency4) Bring two ideas to class, along with a number (and units) for how much energy it will save. You may want to visit these websites:Earth 911http://www.earth911.org/master.asp6o of Energy Efficiency http://www.sixdegreechallenge.com/default.aspxAlliance to Save Energyhttp://www.ase.org/The Home Energy Saver – allows calculation of home energy usehttp://hes.lbl.gov/Your idea Energy saved1.2.Questions for Discussion in Lab (and/or to consider prior to your short presentation):Don’t just focus on the negative…what are you and Tucson doing right? How might we be over or underestimating our food energy use? What factors have we left out?What went into buying food, shipping it, growing it, advertising it, etc.?What are we leaving out for the energy usage?Why do you think corn has become such a big proportion of American diets?How do you think your energy consumption will change after you graduate, and later in life?Will using alternative forms of energy “save” us without lifestyle changes?Think about the energetic costs of leisure-time activities (movies, sporting events, concerts, going out to the bars, etc.). What would you do if there were no fossil fuels to power some of these activities?How much energy is involved in the water that is consumed in all its forms by someone each year?Alternative energy sources - will solar, wind, ethanol, etc really take up the slack if we run out offossil fuels. Can we implement these alternatives on such a large scale?What about the costs of dealing with our waste?Why don't we have more solar power on the UA campus?What are some simple, realistic ways you can change your daily fossil fuel energy use?Page 3Environmental Biology (ECOL206) 2007, Bonine and TylerThe information below comes directly from the City of Ames, Iowa website: http://www.city.ames.ia.us/ElectricWeb/energyguy/appliances.htm.Common Household Appliance Energy Use Listed below are some common appliances, their wattage and an estimate of operating costs. There is also a simple formula for calculating operating costs below.Appliance Watts Appliance WattsAir Conditioner (Room) 6,000 BTU 750 Humidifier (Portable) 100Air Conditioner (Room) 9,000 BTU 1050 Iron (Hand) 1000Air Conditioner (Central) 2.5 Tons 3500 Lighting Single Lamp (60W) 60Can Opener 175 Compact Fluorescent (60W Equiv) 18Ceiling Fan 60 Ceiling Fixture (3 bulbs) 180Clock 5 Tri-Light (Table Lamp) 100Clothes Dryer 5000 Chandelier (5 Lamp) 300Clothes Washer,