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salt concentrations
My Oscars are coming down with something. The one had a shiny white
patch(when viewed at the right angle under lights almost a marbled effect) and some white tufts protruding. Not sure if they were parasites - was definately not fungus. I did some reading, particularly about hole in the head although I can;t be sure that is what they have. Anyway I did an immediate large water change and gravel vac and added salt. One site recommended 1 tbsp per 5-10 gal.(how many ppm would that be roughly?!) Since I do not know what a tbsp is (of course a table spoon but how much is that) and do not have measuring cups I opted to weigh the salt and go for a ppm or percentage solution and using the decimal system it makes the maths really easy. But I just wanted to double check my maths here for my own sake, and I am sure there are others who could benefit as well. This is what I know 1mg (salt) / litre = 1 ppm 10000ppm = 1% salt solution so if I have 350 litres to treat (trying to take into account the volume taken up by gravel and rocks)and I want to add salt to get to 1000 ppm or a 0.1% solution I do the following 1ppm * desired ppm * litres = salt to be added 1 (mg) * 1000 (ppm) * 350 (l) = 350000mg of salt = 350g or 0.35kg since I only added 264g of salt I need a further 86g to get to 1000ppm Is this correct? And is 1000ppm (0.1%) a suitable concetration for treating the oscars for a possible case of HITH along with more frequent water changes, gravel vac and varied diet. Just that I do not want to be adding any meds or anythiny without a proper diagnosis and having seen that even at the 754ppm concetration level by the morning all the white things had disappeared and the shiny white patches look less obvious. The other fish are unaffected. I did do the only two tests I have kits for and Ammonia was zero and ph between 7 - 7.4 (I have lost the color chart but know the colour to be neutral to slightly alkaline) Temp runs at 26C Filtered by a Eheim 22xx canister. I know I have slipped a littel in gravel vacs but I do change at least 15% every two weeks. I will be doing 10 % changes every 2 days (with gravel vac) and adding enough salt to keep a 1000ppm level and investing in some varied food - currently only feeding Nutrafin complete basic diet Floating Pellets for medium and large cichlids. Thanks trev |
salt concentrations
Hi. I can't help with a recommendation for the concentration that you want, but I think I can help with the unit conversion. I checked, and a tablespoon = 14.8 ml. 10 US gallons is 37.85L. So 1 tbsp / 10 US gallons is roughly a 0.04% solution (just about 400 ppm). 1 tbsp per 5 gallons should be twice that, or 0.08%. So I think that your estimate of 0.1% solution is on the high end of the original recommendation you read. --chris On Fri, 18 Jun 2004, Trevor wrote: My Oscars are coming down with something. The one had a shiny white patch(when viewed at the right angle under lights almost a marbled effect) and some white tufts protruding. Not sure if they were parasites - was definately not fungus. I did some reading, particularly about hole in the head although I can;t be sure that is what they have. Anyway I did an immediate large water change and gravel vac and added salt. One site recommended 1 tbsp per 5-10 gal.(how many ppm would that be roughly?!) Since I do not know what a tbsp is (of course a table spoon but how much is that) and do not have measuring cups I opted to weigh the salt and go for a ppm or percentage solution and using the decimal system it makes the maths really easy. But I just wanted to double check my maths here for my own sake, and I am sure there are others who could benefit as well. This is what I know 1mg (salt) / litre = 1 ppm 10000ppm = 1% salt solution so if I have 350 litres to treat (trying to take into account the volume taken up by gravel and rocks)and I want to add salt to get to 1000 ppm or a 0.1% solution I do the following 1ppm * desired ppm * litres = salt to be added 1 (mg) * 1000 (ppm) * 350 (l) = 350000mg of salt = 350g or 0.35kg since I only added 264g of salt I need a further 86g to get to 1000ppm Is this correct? And is 1000ppm (0.1%) a suitable concetration for treating the oscars for a possible case of HITH along with more frequent water changes, gravel vac and varied diet. Just that I do not want to be adding any meds or anythiny without a proper diagnosis and having seen that even at the 754ppm concetration level by the morning all the white things had disappeared and the shiny white patches look less obvious. The other fish are unaffected. I did do the only two tests I have kits for and Ammonia was zero and ph between 7 - 7.4 (I have lost the color chart but know the colour to be neutral to slightly alkaline) Temp runs at 26C Filtered by a Eheim 22xx canister. I know I have slipped a littel in gravel vacs but I do change at least 15% every two weeks. I will be doing 10 % changes every 2 days (with gravel vac) and adding enough salt to keep a 1000ppm level and investing in some varied food - currently only feeding Nutrafin complete basic diet Floating Pellets for medium and large cichlids. Thanks trev |
salt concentrations
Not very precise, but easy to remember, every teaspoon per gallon is 0.1%
(a US teaspoon is about 5ml). -- www.NetMax.tk "Chris Palma" wrote in message ... Hi. I can't help with a recommendation for the concentration that you want, but I think I can help with the unit conversion. I checked, and a tablespoon = 14.8 ml. 10 US gallons is 37.85L. So 1 tbsp / 10 US gallons is roughly a 0.04% solution (just about 400 ppm). 1 tbsp per 5 gallons should be twice that, or 0.08%. So I think that your estimate of 0.1% solution is on the high end of the original recommendation you read. --chris On Fri, 18 Jun 2004, Trevor wrote: My Oscars are coming down with something. The one had a shiny white patch(when viewed at the right angle under lights almost a marbled effect) and some white tufts protruding. Not sure if they were parasites - was definately not fungus. I did some reading, particularly about hole in the head although I can;t be sure that is what they have. Anyway I did an immediate large water change and gravel vac and added salt. One site recommended 1 tbsp per 5-10 gal.(how many ppm would that be roughly?!) Since I do not know what a tbsp is (of course a table spoon but how much is that) and do not have measuring cups I opted to weigh the salt and go for a ppm or percentage solution and using the decimal system it makes the maths really easy. But I just wanted to double check my maths here for my own sake, and I am sure there are others who could benefit as well. This is what I know 1mg (salt) / litre = 1 ppm 10000ppm = 1% salt solution so if I have 350 litres to treat (trying to take into account the volume taken up by gravel and rocks)and I want to add salt to get to 1000 ppm or a 0.1% solution I do the following 1ppm * desired ppm * litres = salt to be added 1 (mg) * 1000 (ppm) * 350 (l) = 350000mg of salt = 350g or 0.35kg since I only added 264g of salt I need a further 86g to get to 1000ppm Is this correct? And is 1000ppm (0.1%) a suitable concetration for treating the oscars for a possible case of HITH along with more frequent water changes, gravel vac and varied diet. Just that I do not want to be adding any meds or anythiny without a proper diagnosis and having seen that even at the 754ppm concetration level by the morning all the white things had disappeared and the shiny white patches look less obvious. The other fish are unaffected. I did do the only two tests I have kits for and Ammonia was zero and ph between 7 - 7.4 (I have lost the color chart but know the colour to be neutral to slightly alkaline) Temp runs at 26C Filtered by a Eheim 22xx canister. I know I have slipped a littel in gravel vacs but I do change at least 15% every two weeks. I will be doing 10 % changes every 2 days (with gravel vac) and adding enough salt to keep a 1000ppm level and investing in some varied food - currently only feeding Nutrafin complete basic diet Floating Pellets for medium and large cichlids. Thanks trev |
salt concentrations
On Fri, 18 Jun 2004 16:45:07 -0400, Chris Palma wrote:
Hi. I can't help with a recommendation for the concentration that you want, but I think I can help with the unit conversion. I checked, and a tablespoon = 14.8 ml. 10 US gallons is 37.85L. So 1 tbsp / 10 US gallons is roughly a 0.04% solution (just about 400 ppm). 1 tbsp per 5 gallons should be twice that, or 0.08%. So I think that your estimate of 0.1% solution is on the high end of the original recommendation you read. --chris On Sat, 19 Jun 2004 01:11:29 -0400, NetMax wrote: Not very precise, but easy to remember, every teaspoon per gallon is 0.1% (a US teaspoon is about 5ml). By my own experience and calculations I found that a metic tot measure of 25 ml capacity contained salt (fairly course) that weighed 33g. This was calculated by measuring 15 level tots and weighing the salt on a scale that was accurate to 20g and divinding the weight 496 by 15 to get 33.07 which I rounded down to 33g per 25 ml of salt. I would imagine that finer salt would have weighed more. So according to Netmaxs approximation rule of 5ml salt per gallon (3.79l) = 0.1 % or 1000ppm I calculated completed differently by the following methodology 5ml salt = 5/25 * 33 = 6.6g of salt per gal or 3.75 litre therefore 6.6/3.79 = 1.74g per litre = 1740mg per liter or ppm = 0.17 % or 70% more than 0.1 % approximation. From Chris' conversion we get the following calculation 14.8ml of salt = 14.8/25 *33 = 19.54g salt per 37.85 litres 19.54/37.85 = 0.52 g per litre = 520mg per litre or ppm = .05% = 25% more than chris' rough figure but close enough I would imagine! Obviously both Chris and Netmax never gave exact conversions but useable approximations, unless my maths is way out ;) We can see that teaspoon/tablespoon to measure salt is a lousy measure and it would be nice to see people using ppm or percentage figures for salt remedies. But in closing I guess even if for me (and my paticular salt granule size) either method would have given a reasonable concebtration even if they were (according to my calcs;) 25 and 75 percent out at these low concentrations particlularly for the large cichlids I have a .1% or even ..2% solution is not going to have a harmfull effect. I do not think I have worked my brain harder than this for a while - but it is fun!! On further reading and taking a picture of my oscar which really shows it I amd more convinced that it is suffering from HITH. You can see a picture here if you would like to confirm this for me and comment on the severity of this case. www.geocities.com/thereaperman69 Thanks Trev |
salt concentrations
"Trevor" wrote in message
se.com... On Fri, 18 Jun 2004 16:45:07 -0400, Chris Palma wrote: Hi. I can't help with a recommendation for the concentration that you want, but I think I can help with the unit conversion. I checked, and a tablespoon = 14.8 ml. 10 US gallons is 37.85L. So 1 tbsp / 10 US gallons is roughly a 0.04% solution (just about 400 ppm). 1 tbsp per 5 gallons should be twice that, or 0.08%. So I think that your estimate of 0.1% solution is on the high end of the original recommendation you read. --chris On Sat, 19 Jun 2004 01:11:29 -0400, NetMax wrote: Not very precise, but easy to remember, every teaspoon per gallon is 0.1% (a US teaspoon is about 5ml). By my own experience and calculations I found that a metic tot measure of 25 ml capacity contained salt (fairly course) that weighed 33g. This was calculated by measuring 15 level tots and weighing the salt on a scale that was accurate to 20g and divinding the weight 496 by 15 to get 33.07 which I rounded down to 33g per 25 ml of salt. I would imagine that finer salt would have weighed more. So according to Netmaxs approximation rule of 5ml salt per gallon (3.79l) = 0.1 % or 1000ppm I calculated completed differently by the following methodology 5ml salt = 5/25 * 33 = 6.6g of salt per gal or 3.75 litre therefore 6.6/3.79 = 1.74g per litre = 1740mg per liter or ppm = 0.17 % or 70% more than 0.1 % approximation. From Chris' conversion we get the following calculation 14.8ml of salt = 14.8/25 *33 = 19.54g salt per 37.85 litres 19.54/37.85 = 0.52 g per litre = 520mg per litre or ppm = .05% = 25% more than chris' rough figure but close enough I would imagine! Obviously both Chris and Netmax never gave exact conversions but useable approximations, unless my maths is way out ;) We can see that teaspoon/tablespoon to measure salt is a lousy measure and it would be nice to see people using ppm or percentage figures for salt remedies. But in closing I guess even if for me (and my paticular salt granule size) either method would have given a reasonable concebtration even if they were (according to my calcs;) 25 and 75 percent out at these low concentrations particlularly for the large cichlids I have a .1% or even .2% solution is not going to have a harmfull effect. I do not think I have worked my brain harder than this for a while - but it is fun!! On further reading and taking a picture of my oscar which really shows it I amd more convinced that it is suffering from HITH. You can see a picture here if you would like to confirm this for me and comment on the severity of this case. www.geocities.com/thereaperman69 Thanks Trev If you can figure out a reliable conversion, please share it. I've read that for salt calculations, because of water's changing density, the calculation should include temperature, with the reference typically being 59F. The few times I've tried to calculate salt dosages (with patient help from others), we came out to approximately 1g = 1ml and a tablespoon per g was 0.3%. While this might not be very accurate, 1 tsp/g = 0.1% helps me be consistent. For example, Goldfish (freshwater fish) have come from saline levels of 17ppt, but they cannot withstand prolonged exposure to 15ppt (which worked out to 11 teaspoon per gallon). That gives you quite a broad range (zero to 11), so stability and changing levels gradually seems just as important. I agree that larger fish are far less susceptible to excess salt, being better able to regulate themselves. Good luck with your Oscar. -- www.NetMax.tk |
salt concentrations
On Tue, 22 Jun 2004 18:06:07 -0400, NetMax wrote:
If you can figure out a reliable conversion, please share it. I've read that for salt calculations, because of water's changing density, the calculation should include temperature, with the reference typically being 59F. The few times I've tried to calculate salt dosages (with patient help from others), we came out to approximately 1g = 1ml and a tablespoon per g was 0.3%. While this might not be very accurate, 1 tsp/g = 0.1% helps me be consistent. I think that your estimates are probably well good enough for most applications. I think people overestimating the exact amount of water would be more of a problem in getting the right concentration. In my 3 foot tank I was amazed at how much the water level dropped when I took all the rock work out. Then there is also the volume of tank taken up by the air space between the water level an the top of the glass. Doesn't temperature only come into play when you are measuring the specific gravity with a hydrometer above or below the 60F (at which temp plain water has an sg of 1.000 The particular hydrometer I am using I had left over from beer making. Incidentally it seemed to show only slightly above 1.000 but below 1.001 for my estimated 0.1 % solution (at 25C) I am not sure what reading I should have expected. I figure it is not accurate enough to be reliable used at such low concentrations. I also did not consult a temperature correction table. How does one relate the SG to a percentage solution? (at 60F of course !) On googling I see that once can buy a hydrometer calibrated to show the % salt solution. I think that consistency _is_ the key here. You will soon get a feel for if your concentration is too strong (fish adversely affected immediately or over a long time) or too week (not curing the problem for which it was applied) or having no noticeable beneficial effect over a long period when you would normally expect it too. I should add YMMV here as I am no expert and this is my first time using salt. Trev PS I am |
salt concentrations
On Wed, 23 Jun 2004 02:22:43 +0200, Trevor
wrote: On Tue, 22 Jun 2004 18:06:07 -0400, NetMax wrote: If you can figure out a reliable conversion, please share it. I've read that for salt calculations, because of water's changing density, the calculation should include temperature, with the reference typically being 59F. The few times I've tried to calculate salt dosages (with patient help from others), we came out to approximately 1g = 1ml and a tablespoon per g was 0.3%. While this might not be very accurate, 1 tsp/g = 0.1% helps me be consistent. I think that your estimates are probably well good enough for most applications. I think people overestimating the exact amount of water would be more of a problem in getting the right concentration. In my 3 foot tank I was amazed at how much the water level dropped when I took all the rock work out. Then there is also the volume of tank taken up by the air space between the water level an the top of the glass. Doesn't temperature only come into play when you are measuring the specific gravity with a hydrometer above or below the 60F (at which temp plain water has an sg of 1.000 The particular hydrometer I am using I had left over from beer making. Incidentally it seemed to show only slightly above 1.000 but below 1.001 for my estimated 0.1 % solution (at 25C) I am not sure what reading I should have expected. I figure it is not accurate enough to be reliable used at such low concentrations. I also did not consult a temperature correction table. How does one relate the SG to a percentage solution? (at 60F of course !) On googling I see that once can buy a hydrometer calibrated to show the % salt solution. I think that consistency _is_ the key here. You will soon get a feel for if your concentration is too strong (fish adversely affected immediately or over a long time) or too week (not curing the problem for which it was applied) or having no noticeable beneficial effect over a long period when you would normally expect it too. I should add YMMV here as I am no expert and this is my first time using salt. Trev PS I am Some more reading: http://www.advancedaquarist.com/issu.../chemistry.htm Unfortunately it is geared to seawater concentrations. If we take 100 grams of water and add 1 gram of salt, we would have a 1% solution. We are doing this at the temperature where 1 cc of water weighs 1 gram, whatever that is. Assuming the solution doesn't change volume (it could increase, decrease, or remain the same)we would have 100 cc that weigh 101 grams. 101/100 = 1.01 specific gravity. Another way to figure is 99 grams of water and 1 gram of salt to get 100 grams of solution. 100/99 = 1.01010101... So 1.001 for 0.1% sounds right, ignoring all the variables that are too small for us to measure anyway. -- - Charles - -does not play well with others |
salt concentrations
mo
http://www.mt.com/mt/resourcedetail/...y=c2MTg4NjM1Mz -- - Charles - -does not play well with others |
salt concentrations
On Wed, 23 Jun 2004 05:54:00 GMT, Charles
bubbled forth the following: Some more reading: http://www.advancedaquarist.com/issu.../chemistry.htm Unfortunately it is geared to seawater concentrations. If we take 100 grams of water and add 1 gram of salt, we would have a 1% solution. We are doing this at the temperature where 1 cc of water weighs 1 gram, whatever that is. 3.984 degrees Celsius, the temperature at which water is at it's most dense. Jerry |
salt concentrations
So, corrected to 20 C, or 68F.
Water has a density of .9982063 G/CC Water with 0.1% sodium chloride has a density of .9989 G/CC. Dividing one number by the other one, we get 1.007 as the relative density, or specific gravity at 20C. -- - Charles - -does not play well with others |
salt concentrations
On Wed, 23 Jun 2004 05:54:00 +0000, Charles wrote:
Unfortunately it is geared to seawater concentrations. If we take 100 grams of water and add 1 gram of salt, we would have a 1% solution. We are doing this at the temperature where 1 cc of water weighs 1 gram, whatever that is. Assuming the solution doesn't change volume (it could increase, decrease, or remain the same)we would have 100 cc that weigh 101 grams. 101/100 = 1.01 specific gravity. Another way to figure is 99 grams of water and 1 gram of salt to get 100 grams of solution. 100/99 = 1.01010101... So 1.001 for 0.1% sounds right, ignoring all the variables that are too small for us to measure anyway. Thanks for this explanation it makes it a lot clearer. I will also be having a look at those websites you recommended Trev |
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