I am starting to see a lot of bad comparasons and boarderline advice when it comesomparing differnet battery types and such. I dont claim to know everything about every battery but I do know a lot about a few and when someone mentions a new type I read about it.
BFL13 wrote:
If you are happy with the 80AH you get now doing 50-90s, then you can get the same shorter time as with LFPs just by doing 40-80s instead, with what you have now. Constant 45 amps and no tapering by avoiding the 80-90 part. Same 1.8 hours for 80 AH (not 88AH?)
what is being recomended here, cycling a deep cycle between 40-80 , yes you can charge it faster but now you are droping below 50% every cycle which lowers the life cycles of the battery and also this way you wont be able to get it back to 100% very often which is fine for a few cycles but you realy should try to hit 100% every so many cycles or you can impact the life span of the battery.
but one thing that is realy starting to burn my bridges is the comparason of aples to oarnges to apples instead of apples to apples.
LiFePo4 (Ill just refir to as Li from this point forward) is now the cheepest battery per usable AH, has a very high discharge rate and also has the highest charge rates, if you have the equipment to take advantage of it.
this whole thing of saying cycle between 40 to 80% so you get faster charging is skewing the exparament to get the results you want instead of a real comparason. if you take a 100 amp Sio2, a 200 Amp deep cycle and a 100 Amp Li, they all got simular usable capacity well the Sio2 has 80ah, the deep cycle has 100ah and the Li has 100ah.
(and yes you should be able to use the full 100ah out of a reputible li batter maker as they actualy use a little higher of a capacity and use the BMS to set the low and high charging limits to prevent damage while still giving you 100% so no you dont have to cycle between 0 and 90% or 10-90% or what ever the rhumor of the month is at the time. yes on raw cells you do but thats a different creature)
so with a 45A charger (lets change it to 40A charger just to make the numbers work easier haha) we are going to take 80ah from each battery, so the SIo2 as we have seen from BFL13's experiance can only use 25A from the charger would take over 3 hours just to get to 90% and then what ever the adsorbtion phase is give or take depending when it kicks in. the deep cycle would be in a simular situation depending on the type of battery would probably be able to take a larger initial charge but with the adsorption phase and such would be looking well over three hours also. the Li would use the full output and with the tiny tiny adsorbtion phase, like a min or two would take aproximatly 1ht and 45 min to recover to 100% .
now if you want to skew things so you dont have to use the adsorption on the Sio2 or the deep cycle then lets scew things the way of Li also. there is a good chance that when you upgrade to Li batteries you have to upgrade at least the charger section of your converter/power pannel or bypass it with a different charger, so why not take advantage of that and throw a 80 to 120 ah li compatable charger in it.
now with a 100 ah charger lets compare things, and we will get rid of the adsorption phase and not worry about battery life dammage hell lets just say an 80amp charger to keep the math simple again.
sio2 on the 80a charger can still only accept 25amps so to recover 80ah it will take 3.2 hours. deep cycle can do a little better depending on temp and aceptance rate I am going to guess about 2 t0 3 hours (would have to have the battery specs to make a closer guess and even then with out timing it , it would still be a guess but that should be in the ball park) Li, to replace 80 ah with a 80amp charger would take 1 hour.
so if we are skewing things lets skew everything to there major advantage or nothing at all. I have deep cycles in my 5th wheel that are now 15 years old and are just starting to get week but still have another season or two they could do (I am waiting to see if shipping is coming down more on Li cells after covid is over) last year shipping was three times the cost of the cells to canada this year it is roughly the same which is one reason they have become more affordable and if you build them your self hands down the cheepest battery to get especialy if you are buying enough for a larger bank. I can get 16, 280AH cells right now for 1800.00 delivered, plus another couple hundred for BMS and materials to build the boxes, that will let me build a 840 usable ah 12v set up for the 5th wheel which is almost 4 times the capacity I have now, and upgrade the camper with a 12V, 280AH setup which is alomst 3 times the capacity of my two 6V batteries. also for the fith wheel it will be 1/2 the space used and 1/3 to 1/2 the weight up front. the camper it would be 1/3rd the weight and 1/3rd the space roughly.
having said that I dont plan on having to charge my batteries when it is realy below 0, I will have the batteries in the heated space so that when they charge from solar in cold temps they will be warm. a good BMS will have cold temp charge cutoff anyways to protect from that and even though you cant charge them if there cold you can discharge them to -20C so in my case that will be good enough to start the furnace to warm everthing up to the point they can charge.
there are some cases like in Pianotuna where he is using his for work in some pretty extream cases where spending a bunch extra money on something like Sio2 makes sence, especialy since he can write them off for business, or some one who does extream cold weather camping and doesnt want to use a genny to supply power for the initial warming of the rv, but for genneral spring to fall and some mild winter camping which I would guess most of us fall under any battery will work, it just comes down to size, weight, usable capacity, life span and price (per usable AH). right now with some of the new battery that have been popping up or especialy if you can turn a screwdriver and put cells togeather Li has turned into the leader of every class.
Steve
2014 F350 6.7 Platinum
2016 Cougar 330RBK
1991 Slumberqueen WS100
