i've excerpted this post from a discussion on our listserve to continue the discussion here in the forums.
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Thanks for tossing out some numbers David!
>very practical (and in case anyone is wondering no it would not be up while moving, only when parked.) Here are some
in my experiences talking with the public on both RE and EV's in the past 5 years, about 95% of them think that a wind turbine (or such) on a moving vehicle would generate 'perpetual power'. Egads... shows much more education we need to do! i normally launch into a discussion on Newton's laws of the conservation of energy, energy conversions, and efficiencies, etc. and when their eyes glaze over, i say, just joking! i reassure them that they are in the large majority of people that think that we can generate power 'perpetually'. i think people are a combination of 'dumbed down', 'naive' and 'idealistic'. Just because i want something to be true doesn't make it true!
>numbers to work with. Most of us in Illinois have access to class 2 wind or better. In class 2 a Bergey 1kW turbine (2.5 meter dia) is capable of averaging 6 kWh a day on a 60ft tower. If you drop the tower down to 30 ft you get 4.4 kWh. One could have a turbine at home that you pull up next to daily or if on the road I suppose you could set it up when you stop.
Absolutely, we need RE powered charging stations everywhere! Imagine parking lots with solar carports with EVs inside charging during the day instead of frying in the wasted sun. This vision was shown on the NREL (national renewal energy lab) website in the mid-1980s! i'll send a link if i can find it. The technology is here now, cost and political will are the obstacles. Another reminder that our mission is right on!
>So now the question becomes how many miles can you get out of a kWh of electricity. On this I will defer to the list. Anyone got an answer?
General rule of thumb: about 2 miles per battery. Each of our batteries hold about 1 kwh. So my s-10 with 20 batteries, has about a 40 mile range (actually more because of how i drive) and holds about 20kwh with a full charge. ($2.10 in '06). Keep in mind that YMMV based on size/shape/weight of vehicle, driving habits (jack-rabbit vs timing lights), driving pattern (local vs. highway), low rolling resistance tires, etc. etc. Also, it takes more than 20kwh to put 20kwh into a battery pack..charger efficiency, inverter efficiency (if electricity is from wind or PV), wire losses, power factor, battery type effects, temperature, etc.
With David's numbers, assume a bergey 1kw on a 60 foot tower, average (year round), that would generate 12 miles of range for me each day.
If you want to know how much a PV system of different sizes/tiltes/azmuiths will generate in a day, use the excellent application called PV Watts on the NREL site:
http://rredc.nrel.gov/solar/codes_algs/PVWATTS/My home PV system is a 2kw DC system rated at 1800 W AC which is the MAX it will do. I have 12 * 167W Sanyo PV modules (total 2004 W DC). My inverter is a Sunny Boy 1800U model. My array is mounted flat on my roof at 17 degrees tilt and that roof face is 37 degrees west of south. Average sun hours per day is 3.5 in IL.
Plugging my system into PV Watts (version 1) gives: 2.23 mwh/year or 6.1 kwh/day. See these images for the input and output of the PV watts application for my system. Play around with it... it's fun and informative to get real!
http://www.fveaa.org/members/tedlowe/ftp/solar/tedlowe-2kw-pvwatts-input.jpghttp://www.fveaa.org/members/tedlowe/ftp/solar/tedlowe-2kw-pvwatts-output.jpg---
At 1/31/2007 09:13 AM, David Serafini wrote:
>Chad,
>
>I have joked about mounting a wind turbine in the back of my truck in the past. As I said before it would be a statement and not very practical (and in case anyone is wondering no it would not be up while moving, only when parked.) Here are some numbers to work with. Most of us in Illinois have access to class 2 wind or better. In class 2 a Bergey 1kW turbine (2.5 meter dia) is capable of averaging 6 kWh a day on a 60ft tower. If you drop the tower down to 30 ft you get 4.4 kWh. One could have a turbine at home that you pull up next to daily or if on the road I suppose you could set it up when you stop.
>
>So now the question becomes how many miles can you get out of a kWh of electricity. On this I will defer to the list. Anyone got an answer?
>
>-------------- Original message --------------
>From: <mailto:chadmccq%40comcast.net>chadmccq@comcast.net
>Thank you for your response. I think I included wind just because of a small article I just watched on a show on the discovery channel called "How Its Made". Really i was thinking something closer to the solar voltaic cells that could snap together or maybe in just roll our if there flexible and light weight enough.
>
>And to answer the question why an S-10? My cart is not completely tied to that horse. My intend is kind of a motor home for just me and maybe another. So as to live of the grid and be completely mobile, you know kind of follow the sun and write a book about my life kind of thing. Is it possible?
>
>You obviously have a grteater background in science. I know only enough to get my self in trouble and before I waste my available resources I figured I should talk to some people smarter than I am.
>
>And 400 watts worth of power to produce or reclaim from nature via wind is enough to re-charge my battery back? Do you own a EV? I have two but there very small scooter and I got a bug to get off off big daddy oils dependency.
>
>chad
>six years with GM as a line worker
>two years as an electrician
>eight years in the active duty military (still in the guard 1st Lt Signal Corp)
