Hader wrote:Any suggestions about gluing FRP to luan walls? Should I paint, or leave luan as is?
hankaye wrote:Depends on which surface you want to glue the FRP to, ... the wood , ... or the paint???
hank
McDave wrote:The key here is to eliminate the loss incurred by inverter. RV refrigerators are purpose built. They are more expensive to purchase, but add the cost of the inverter to your walmart "energy star" reefer, or AC, multiply by retrofit of adaptation costs, divide by reliability and quality issues, and subtract from the square root of the P.I.T.A. quotient and you will likely find that the right tool for the job is like money in the bank. While inverters do have a place, they add a layer of risk and inefficiency to your critical functions. HVAC, water and waste systems, lighting and food storage are critical functions.
Quality over quantity in these areas. Do it once, do it right. You really do get what you pay for.
I have a Norcold RV frig. It draws 3.5amps/hr at 12volts. At 80f cabin temp, it cycles for about 1-1.5min every 12min. this equals .38amps/hr x 24 = 9.33 amp hrs /day. With one 125ah deep cycle at 50% max discharge you are talking 6.5+ days of reliable refrig. before recharge is required. Now, you will be using battery for other purposes, pumps, lights, fans etc. so factor those in and you still get 3 days + before recharge is required.
The inverter alone in standby mode is more than 2amps/hr and must run 24/7. The math doesn't lie.. so, do your math and find your answers. Rube Goldberg wasn't really an engineer...just sayin'
McDave
Hader wrote:We’re slowly getting there!
Got all the insulation and paneling done, doing priming right now.
Waiting for the black and grey tanks (25 gallons each) before we start the raised floor and the 2 bathroom walls.
Due to back problems, it’s taking a bit longer than it should.
We are watching Don’s Slinky setup to so we can tweak it a bit, it will be on the tongue (part of, and under the battery box) instead of under the trailer. That will help with the back and bending problem.
Hader wrote:I just read this on another forum: "Also didn't know how long the deep cycle battery/inverter would run the fridge, 26 hours and I was still showing 11.8v and the fridge was running."!
[GE GDE03GGHWW 3.1-cu ft Compact Refrigerator with Freezer Compartment (White) ENERGY STAR]
Would this be possible on just 1 battery? Any thoughts?
Hader wrote: My only concern is that I prefer to have 2 or 3 low-tech gizmos, that I can replace at any Walmart or Truck-stop than 1 Hi-tech, Hi-dollar gizmo that I have to order parts for, or send if repairs are needed.
McDave wrote:The key here is to eliminate the loss incurred by inverter. RV refrigerators are purpose built. They are more expensive to purchase, but add the cost of the inverter to your walmart "energy star" reefer, or AC, multiply by retrofit of adaptation costs, divide by reliability and quality issues, and subtract from the square root of the P.I.T.A. quotient and you will likely find that the right tool for the job is like money in the bank. While inverters do have a place, they add a layer of risk and inefficiency to your critical functions. HVAC, water and waste systems, lighting and food storage are critical functions.
Quality over quantity in these areas. Do it once, do it right. You really do get what you pay for.
I have a Norcold RV frig. It draws 3.5amps/hr at 12volts. At 80f cabin temp, it cycles for about 1-1.5min every 12min. this equals .38amps/hr x 24 = 9.33 amp hrs /day. With one 125ah deep cycle at 50% max discharge you are talking 6.5+ days of reliable refrig. before recharge is required. Now, you will be using battery for other purposes, pumps, lights, fans etc. so factor those in and you still get 3 days + before recharge is required.
The inverter alone in standby mode is more than 2amps/hr and must run 24/7. The math doesn't lie.. so, do your math and find your answers. Rube Goldberg wasn't really an engineer...just sayin'
McDave
Alan_H wrote:McDave wrote:The key here is to eliminate the loss incurred by inverter. RV refrigerators are purpose built. They are more expensive to purchase, but add the cost of the inverter to your walmart "energy star" reefer, or AC, multiply by retrofit of adaptation costs, divide by reliability and quality issues, and subtract from the square root of the P.I.T.A. quotient and you will likely find that the right tool for the job is like money in the bank. While inverters do have a place, they add a layer of risk and inefficiency to your critical functions. HVAC, water and waste systems, lighting and food storage are critical functions.
Quality over quantity in these areas. Do it once, do it right. You really do get what you pay for.
I have a Norcold RV frig. It draws 3.5amps/hr at 12volts. At 80f cabin temp, it cycles for about 1-1.5min every 12min. this equals .38amps/hr x 24 = 9.33 amp hrs /day. With one 125ah deep cycle at 50% max discharge you are talking 6.5+ days of reliable refrig. before recharge is required. Now, you will be using battery for other purposes, pumps, lights, fans etc. so factor those in and you still get 3 days + before recharge is required.
The inverter alone in standby mode is more than 2amps/hr and must run 24/7. The math doesn't lie.. so, do your math and find your answers. Rube Goldberg wasn't really an engineer...just sayin'
McDave
This is both great advice and extremely amusing at the same time!
Well put!
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