forummsgid133193edit
Original date:20181202 18:04:46 Edited by: Senator Subject: Re: Dilute Solution yet again
Time to contact your local Health department. I sent out an email to Public Health about the time you started this threadyou get to talk to people who refer you to other people. Here, in Raccoon City, they seem to be well organized.
I saw a reference that dilute solutions degrade slower than concentrated solutions. Another reference implied the degradation is nonlinear; the first half year is slow; the second half year is faster. Chlorox had an advert that they increase the concentration before delivery to endure you get what is on the label in the store.
Public Health, said they have test strips for the purpose that are obtained from health suppliers. Swimming pool maintainers may also have test strips.
_tom
I'd feel a lot more comfortable if there were some definitive document published on the web to which I could refer.
I have a very crude function which attempts to degrade the CL solution at an annual rate up to %20 during the first half of the year and then on up to 50% for the second half of the year. Any suggestions for a more accurate/elegant "nonlinear" solution will be appreciated:
I also added a command line option allowing the user to specify an annual % of annual degradation:
  DiluteSolution.ex 1.1  include std/console.e include std/math.e include std/convert.e constant Usage = sprintf("%s", { """ Dilute a Chlorine Solution: Dilution Law: V1*C1=V2*C2: V1=V2*C2/C1 Usage: eui DiluteSolution.ex <C1> <V2> <C2> eui DiluteSolution.ex <C1> <V2> <C2> <d> eui DiluteSolution.ex <C1> <V2> <C2> <d> <adp> C1 = % Sodium Hypochlorite of stock Bleach at time of purchase V2 = target volume of solution to create with C2% Sodium Hypochlorite option: <d> is the number of days since purchase of C1 + perhaps an estimate of shelf days prior to purchase. If d is added to the command line, the program will calculate a degraded C1 value based on a graduated rate of annual degradation up to 50%. Otherwise, the calculations will be made based on the nominal value for C1% at the time of purchase. Or the user can specify an annual degradation % with option <adp> option: <adp> allows the user to specify an annual degradation % enter as a number without the % symbol EXAMPLES: To make 32 oz "Cleaner Bleach" with 2% Sodium Hypochlorite: from stock Bleach with 6% nominal Sodium Hypochlorite: eui DiluteSolution.ex 6 32 2 use 10.67 oz of C1 + 21.33 oz of distilled water to make solution V2 C2 To degrade C1 by 190 days: eui DiluteSolution.ex 6 32 2 190 use 11.91 oz of C1 + 20.09 oz of distilled water to make solution V2 C2 To make 15 oz "Skin/Wound Wash" with 0.057% Sodium Hypochlorite: from stock Bleach with 6% nominal Sodium Hypochlorite: eui DiluteSolution.ex 6 15 0.057 190  $22 Anasept Wound Wash use 0.16 oz of C1 + 14.84 oz of distilled water to make solution V2 C2 """ }) function calc_adp(integer days)  returns % annual degradation atom y=365.25 integer z = 50, x = 20 if days > floor(.98*y) then return z end if if days > floor(.95*y) then return .95*z end if if days > floor(.90*y) then return .90*z end if if days > floor(.85*y) then return .85*z end if if days > floor(.80*y) then return .80*z end if if days > floor(.75*y) then return .75*z end if if days > floor(.70*y) then return .70*z end if if days > floor(.65*y) then return .65*z end if if days > floor(.60*y) then return .60*z end if if days > floor(.55*y) then return .55*z end if if days > floor(.50*y) then return .50*z end if  if days > floor(.98*(y/2)) then return x end if if days > floor(.95*(y/2)) then return .95*x end if if days > floor(.85*(y/2)) then return .85*x end if if days > floor(.70*(y/2)) then return .70*x end if if days > floor(.60*(y/2)) then return .60*x end if if days > floor(.50*(y/2)) then return .50*x end if if days > floor(.40*(y/2)) then return .40*x end if if days > floor(.30*(y/2)) then return .30*x end if if days > floor(.20*(y/2)) then return .20*x end if if days > floor(.10*(y/2)) then return .10*x end if if days > floor(.05*(y/2)) then return .05*x else return .025*x end if end function procedure DiluteSolution(sequence cmd) integer d = 0  # of degradation days atom adp,  annual % degradation of C1 V1, C1, V2, C2 if length(cmd)<5 then display(Usage) abort(0) end if C1 = to_number(cmd[3])  % Sodium Hypochlorite of stock Bleach at time of purchase V2 = to_number(cmd[4])  target volume of solution to create with C2 = to_number(cmd[5])  C2 % Sodium Hypoclorite if length(cmd) > 5 then d = to_number(cmd[6]) end if  option: <d> if length(cmd) = 7 then adp = to_number(cmd[7])  option: <adp> C1 *= (1((adp/100)/365.25)*d)  user specifies % adp else C1 *= (1((calc_adp(d)/100)/365.25)*d)  % adp is calculated on a graduated scale end if V1 = round((V2*C2)/C1,100) display(sprintf("\n\nUse %.4g oz of C1 + %.4g oz of (distilled) water\nto make %.4g oz of %.4g%s"& " Sodium Hypochlorite\n%.4g oz = %.4g tsp\n\t\t\t\t%.4g tblsp\n\t\t\t\t\t%.4g cup\n\t\t\t\t\t\t%.4g ml", {V1,V2V1, V2, C2, '%', V1, V1*6, V1*2, V1*0.12, V1*29.57})) end procedure DiluteSolution(command_line())
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