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#201325 - 05/03/10 05:20 PM Re: Determining how much solar power is enough [Re: Am_Fear_Liath_Mor]
Eugene Offline
Carpal Tunnel

Registered: 12/26/02
Posts: 2997
Also remember that when powering a motor from an inveter you need to be sure its a true sine wave and sized big enough for the startup current (could be 10x) so you need a way more expensive inverter.

There are 12v refirgerators available, they are $$$ but available. I'm trying to bandaid mu old camper refrige (absorption type) to last a couple more summers and then maybe buy one of those 12v ones.

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#201326 - 05/03/10 05:45 PM Re: Determining how much solar power is enough [Re: Eugene]
Am_Fear_Liath_Mor Offline
Carpal Tunnel

Registered: 08/03/07
Posts: 3078
Quote:
Also remember that when powering a motor from an inveter you need to be sure its a true sine wave and sized big enough for the startup current (could be 10x) so you need a way more expensive inverter.


Thats why I have a WAECO SinePower MSP352 300W Inverter.

http://www.outdoorgb.com/p/WAECO_SinePow...amp;country=GBR

One of the best features of the Waeco Sinepower inverters is that they can be remotely switched on and off for control purposes (i.e. external thermostats with bang bang or hysteresis temperature control) for intermittent motor loads such as refrigerators and freezers without having the inverter losses when the refrigerant motor is not energised.

The 90% efficiency and the 700W peak load capability is another bonus and shouldn't present a problem for high efficiency refrigerators with motor loads less than 75-100W (continous).

DC refrigerators are certainly much more expensive and in certain circumstances with very high thermal efficiency models, can just be run with a solar panel even without a battery energy source or at least a much smaller one due to the lack of inverter losses. You have to weigh up the pros and the cons though, which are mostly dictated by how much and how reliable the solar irradiation is available and where the DC refrigerator is to be located within a domestic premises i.e pure thermal hysteresis control.


Edited by Am_Fear_Liath_Mor (05/03/10 06:02 PM)

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#201327 - 05/03/10 05:58 PM Re: Determining how much solar power is enough [Re: Am_Fear_Liath_Mor]
LCranston Offline
2
Enthusiast

Registered: 08/31/09
Posts: 201
Loc: Nebraska
3+ hours of continuous run-time, so I would guess that I could easily keep the food cold for well over 24 hours- I plan on making an empirical test within the month if I can.


Honestly, the solar is more of a learning project; looking at buying an RV and attaching the solar to it- I hate generators at night, even the expensive ones are loud and smelly...

Between the 1.5 KW Generator and the solar panel, I should be able to keep the fridge and a fan or two running for nearly a week.

If power is going to be down longer than that, its time to move the family out for a while.


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#201335 - 05/03/10 09:35 PM Re: Determining how much solar power is enough [Re: Eugene]
Art_in_FL Offline
Pooh-Bah

Registered: 09/01/07
Posts: 2432
Originally Posted By: Eugene
Also remember that when powering a motor from an inveter you need to be sure its a true sine wave and sized big enough for the startup current (could be 10x) so you need a way more expensive inverter.


Yes/no/perhaps ... Most motor operated appliances run quite well on a simpler, and much cheaper 'modified sine wave', stepped wave, inverter. Only delicate control electronics not protected by their own power supply, like electronic ballasts, have real problems. I have run several refrigerators, a freezer, and a few air conditioners off of simple modified sine-wave inverters and all ran quite well.

I carefully monitored how hot they got when running, overheating is the major problem if they don't like the waveform, but after a few hours running they all were doing fine. I worried about it in a few cases because failing to reset the thermal limiter means the unit isn't running and you need to rescue the contents of the refrigerator or freezer. Otherwise, the unit overheating isn't the end of the world. All UL refrigeration compressors have thermal regulator switches, typically a Klixon device backed up by a fusible link, in case the first fails, to disconnect the power and prevent permanent damage.

Starting, inrush, current is typically about three times the run current for most residential refrigeration units, a lot depends on what time scale we are talking about, but high efficiency motors pull a bit more before saturating and, in theory, 10X is not impossible.

Most electronic step-wave inverters can double their output for the short starting phase, essentially drawing extra power off of internal capacitors for a fraction of a second, and most refrigeration units can be fitted with a 'hard-start' kit, essentially a large capacitor, to prevent starting current issues.

You have to watch output capacities of the inverter but all I have seen have internal fuses to protect themselves so even if overloaded they don't blow up or let out the magic smoke. Keep spare fuses on hand. Practice replacing them a few times, they don't blow often but you don't want to have to learn during an emergency. Same is true of all equipment.

Many of the better manufacturers fit the start circuit of their compressors with one or more over-sized capacitors as a matter of course. This both serves to protect the unit, limit service calls, and eliminates annoyances with lights flickering when the refrigerator starts in a home with marginal wiring.

As far as efficiency goes for modern inverters even inexpensive modified sine-wave inverters only lose 10% to 15% of the power in the conversion from DC to AC.

A lot of inverter information dates back to the 60s when square-wave inverters were common, hard to find one now, and efficiencies were quite low. I have seen quotes of as little as 50% efficiency. Modern inverters are far lighter, more compact, cheaper, efficient, self-protecting, easier on the devices plugged into them.

Another bit of misinformation is that computers will only run on true sine-wave inverters. Definitely false. Most computers have switching power supplies that easily convert a rough modified sine-wave into smooth, conditioned and well regulated DC power. I have run my PCs on a cheap inverter just about every time the lights go out for a few years now.

I will add one proviso: It helps that the PC power supply is over-sized for the load the PC places on it. If the power supply was operating at close to its design limit its capacity to deal with a modified sine-wave would be compromised. Large, high-quality PC power supplies save me a lot of grief.

I'm considering building a PC around a power supply optimized for running off 12v DC to take advantage of better efficiencies. Possibly being able to switch between two power supplies for the best of both worlds. Currently, on line power, the 120v 60cycle gets converted into 12v, 5v and 3v rectified DC by the power supply. the conversion from 12v DC power, from batteries or vehicle, to the filters and conditioned array of power the PC likes is far less drastic and more efficient.

Small modified sine-wave inverters can do a lot of things the people think they can't. Even the sub-$80 700w units from the discount store will run your average refrigerator/freezer when hooked up to the battery in a car as long as the engine is running. I use one of two of those discount store units to run power tools on jobs where we just have to run them for a few minutes and have run refrigerators on them several times.

The larger 2400w modified sine-wave units have a lot more going for them but even those units are mere fraction of the cost of a small true sine wave unit.

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#201336 - 05/03/10 10:37 PM Re: Determining how much solar power is enough [Re: Art_in_FL]
Eugene Offline
Carpal Tunnel

Registered: 12/26/02
Posts: 2997
I've had enough issues with running from inverters that I'm working on avoiding them as well. Even a small motor such as my electric razor didn't like the non perfect sine wave.

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#201366 - 05/04/10 02:02 PM Re: Determining how much solar power is enough [Re: Art_in_FL]
Am_Fear_Liath_Mor Offline
Carpal Tunnel

Registered: 08/03/07
Posts: 3078
Quote:
I'm considering building a PC around a power supply optimized for running off 12v DC to take advantage of better efficiencies. Possibly being able to switch between two power supplies for the best of both worlds. Currently, on line power, the 120v 60cycle gets converted into 12v, 5v and 3v rectified DC by the power supply. the conversion from 12v DC power, from batteries or vehicle, to the filters and conditioned array of power the PC likes is far less drastic and more efficient.


This is kit list I eventually ended up getting for a Solar Powered PC

Motherboard - POV Ion Atom 330 (replaced the dual core Atom 330 heatsink & fan with a Thermalright HR-05 Northbridge Cooler and Noctua 80mm Fan NF-R8 which is virtually inaudible).
RAM - Adata Vitesta Extreme Edition DDR2 1000+ DDR2 2GB.
PSU - 300W Silverstone ST30NF, Fanless, Nightjar, 20 & 24 Pin, ATX, 0Db.
HDD - Samsung F2 EcoGreen HD502HI: Silent 500GB 3.5" HDD HD502HI (still waiting for SSD prices to come down to justify absolutely silent operation, although the Samsung is pretty darn good - http://www.silentpcreview.com/article951-page4.html).
BD ROM - Liteon HOS104.
Audio Amplifier PCI Sonic Impact TIO board T class Amplifier 30W RMS.
Case - Silverstone LC10B Black Aluminum HTPC Desktop Case w/o PSU.

Power consumption works out around 35-45W, the computer is virtually silent (required for Audiophile purposes) and the PSU can be switched out with something like a picoPSU-120 12-25V DC-DC ATX PSU. i.e. the HTPC case has lots of room to drill the DC power cable connector for direct SLA battery operation (when I eventually get around to it) or to mount an appropriate sized SLA battery if need be.




Edited by Am_Fear_Liath_Mor (05/04/10 03:00 PM)

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#201381 - 05/04/10 05:35 PM Re: Determining how much solar power is enough [Re: Am_Fear_Liath_Mor]
Eugene Offline
Carpal Tunnel

Registered: 12/26/02
Posts: 2997
I have a very old mini-itx board and a 60W power supply that looks like the PW-200V from http://www.mini-box.com/DC-DC
I used it in the early 2000's for an in car mp3 computer but have it setup a simple NAS device now. Plan now is to build something like an online UPS using a battery and solar charge controller with the low voltage dropout setup to switch to line power rather than disconnecting the load. Then run my server, wireless, etc all from 12v.

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