|
The current issue of home power magazine directly answers this ...
www.home-power.com It is a myth (your understanding) , panels recoup there cost in about 2-3 years and will last much longer than 25 years. The 25 years , is the manufactures warranty for 80% power generation .... The panels will last until they suffer physically damage, the silicon will deliver power well past our or our children's life times ... "mike" wrote in message ... I once read that it takes more energy to make, deliver, install a solar panel than the total energy you get out of it over it's 20 year lifetime. If that's true, (small scale PV) solar makes little sense from an environmental standpoint. mike |
In article , "Joel Kolstad"
writes: mike wrote: I once read that it takes more energy to make, deliver, install a solar panel than the total energy you get out of it over it's 20 year lifetime. If that's true, (small scale PV) solar makes little sense from an environmental standpoint. My understanding is that improvements in the efficiency of the panels has no longer made that true... although of course to some degree it depends on where you end up installing the panels! An easy way to determine whether or not the statement could be true is to see whether or not the cost of the energy produced by the panel over its life -- using regular market rates -- exceeds its cost. If so, obviously the panel must be producing more energy than was requried to build it, since all the labor and materials the manufacturer put into the panel weren't free! Actually, solar panels DO - under circumstances, but that seems beside the point in this particular thread. We all get a migration from the original thread question to automobile economy (!) and a lot of polarized opinions. :-) It seems that the higher the polarization level, the more they become like electrolytic capacitors. Put them in the wrong way and they blow up... The original thread question (maybe) was about using solar cells for battery charging. In that case there needs to be identification with two major application areas: 1. The characteristics necessary to charge a particular battery. 2. The range of input voltage and current sufficient to operate the charging circuit as obtained from solar cells. Nobody seems to have addressed item (1) which would seem to drive the whole task. Item (2) could have been satisfied with actual measurements in a 48-hour time period, one day to set it up, a second day to take the measurements, noting time of day, cloud cover, etc. Please excuse me for thinking linearly... :-) Len Anderson retired (from regular hours) electronic engineer person |
In article , "Joel Kolstad"
writes: mike wrote: I once read that it takes more energy to make, deliver, install a solar panel than the total energy you get out of it over it's 20 year lifetime. If that's true, (small scale PV) solar makes little sense from an environmental standpoint. My understanding is that improvements in the efficiency of the panels has no longer made that true... although of course to some degree it depends on where you end up installing the panels! An easy way to determine whether or not the statement could be true is to see whether or not the cost of the energy produced by the panel over its life -- using regular market rates -- exceeds its cost. If so, obviously the panel must be producing more energy than was requried to build it, since all the labor and materials the manufacturer put into the panel weren't free! Actually, solar panels DO - under circumstances, but that seems beside the point in this particular thread. We all get a migration from the original thread question to automobile economy (!) and a lot of polarized opinions. :-) It seems that the higher the polarization level, the more they become like electrolytic capacitors. Put them in the wrong way and they blow up... The original thread question (maybe) was about using solar cells for battery charging. In that case there needs to be identification with two major application areas: 1. The characteristics necessary to charge a particular battery. 2. The range of input voltage and current sufficient to operate the charging circuit as obtained from solar cells. Nobody seems to have addressed item (1) which would seem to drive the whole task. Item (2) could have been satisfied with actual measurements in a 48-hour time period, one day to set it up, a second day to take the measurements, noting time of day, cloud cover, etc. Please excuse me for thinking linearly... :-) Len Anderson retired (from regular hours) electronic engineer person |
"Solar Guppy" wrote:
The current issue of home power magazine directly answers this ... www.home-power.com That's http://www.homepower.com/ (the other one is a WWWeb interface to one of these newsgroups. -- William Smith ComputerSmiths Consulting, Inc. www.compusmiths.com |
"Solar Guppy" wrote:
The current issue of home power magazine directly answers this ... www.home-power.com That's http://www.homepower.com/ (the other one is a WWWeb interface to one of these newsgroups. -- William Smith ComputerSmiths Consulting, Inc. www.compusmiths.com |
|
|
"Jan Panteltje" wrote in message ... On a sunny day (Thu, 15 Apr 2004 05:57:18 GMT) it happened wrote in : A guy in Florida quoted 48 years pay back time. I ran the numbers for my home - over 40 years, and I pay 13 cents per kwh. A 2 kW system costs $15000. Assuming an average of 8 hours per day of 2kW per hour, that solar system would give me 16 kWh. I pay 16*.13 or $2.08 for 16 kWh. Works out to 19+ years for payback, if you don't count on mortgage payments for the system. Add that in, and the cost of a $15000 system is much worse - over 30,000 in a 25 year, 7% mortgage. You have to take into account that the cost of a kWh from the grid in 25 years will be a LOT higher too, if there still is a grid during and after WW3 that is. JP I would say that so far during WW# there is still a grid. |
"Jan Panteltje" wrote in message ... On a sunny day (Thu, 15 Apr 2004 05:57:18 GMT) it happened wrote in : A guy in Florida quoted 48 years pay back time. I ran the numbers for my home - over 40 years, and I pay 13 cents per kwh. A 2 kW system costs $15000. Assuming an average of 8 hours per day of 2kW per hour, that solar system would give me 16 kWh. I pay 16*.13 or $2.08 for 16 kWh. Works out to 19+ years for payback, if you don't count on mortgage payments for the system. Add that in, and the cost of a $15000 system is much worse - over 30,000 in a 25 year, 7% mortgage. You have to take into account that the cost of a kWh from the grid in 25 years will be a LOT higher too, if there still is a grid during and after WW3 that is. JP I would say that so far during WW# there is still a grid. |
"Watson A.Name "Watt Sun - the Dark Remover"" wrote in message ... Charles W. Johnson Jr. wrote: [snip] While I'm all for using more renewable resources, and especially ones that are environmentally friendly, it doesn't make sense to cause yourself financial pain doing so. It makes sense to buy the must fuel efficient vehicle that fits your needs but not to overspend simply because it's a little better on the gas mileage. It's not a "little" better, it more than double - 50+ MPG compared to 25! [snip] Surprisingly enough some SUV owners actually need the SUV at the time of purchase, I personally drove through snow 70cm deep on a regular basis prior to my recent job change. Just because the people in southern California don't need it doesn't mean no one does. Charles Surprisingly enough, many of those people who bought a big Ford Expedition or GM Yukon could have got by with a lot smaller, and hence a lot more economical SUV. ALso, there are vans, too, with a much better gas mileage. Surprisingly enough, it's not about whether or not it's a SUV or a truck or whatever, it's whether or not it's a gas guzzler. A van with 4X4 or allwheel drive and ground clearance is an SUV. Gas mileage becomes secondary if every time you try to move you get stuck. The small SUV hold a family of 5 uncomfortably the larger hold a family of seven, mom, dad, grandma and grandpa + 2 or more kids comfortably plus will pull that 30'+ mobile home they camp in. Again not everyone lives in Southern California where you can't do anything fun least you violate some environmentalists dream. Personally I bought the smallest vehicle I felt could do the job I needed it to. That turned out to be a V6 that get about 25mpg highway. Charles |
| All times are GMT +1. The time now is 08:21 AM. |
Powered by vBulletin® Copyright ©2000 - 2025, Jelsoft Enterprises Ltd.
RadioBanter.com