What is the formula for calculating how much sugar sugar syrup contains?

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density(x)=sg(x)*sg(water)
density(water) ~ 1kg/litre

Thanks for clarifying.

So when you say "the weight of sugar per litre of solution is brix*density(brix)" then I assume it means that I can simply take the figure in the "brix" column and multiply it by the figure in the "gravity" column, to get the weight (in kilogram) of sugar in one litre of syrup.

I tested it with values given by beekeepers from actual measurements, and it does seem to work like that, thanks.
 
Thanks for clarifying.

So when you say "the weight of sugar per litre of solution is brix*density(brix)" then I assume it means that I can simply take the figure in the "brix" column and multiply it by the figure in the "gravity" column, to get the weight (in kilogram) of sugar in one litre of syrup.

I tested it with values given by beekeepers from actual measurements, and it does seem to work like that, thanks.

i ve corrected it to what i thought i wrote :)
density(x)=sg(x)*density(water)
density(water) ~ 1kg/litre


yes
brix * gravity = kg/l (near enough)
 
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thebeeman said:
Thin 1 lb sugar to 2 pints of water gives 28% sugar concentration.
"Thin", as fed in spring, is surely 1 lb sugar to 1 pint water?

Both are acceptable.

1 lb sugar + 1 pint water = 44.4% solution
1 lb sugar + 2 pints water = 28.5% solution

In NL the 1:1 solution is a 50% solution (we use kilograms and litres), but spring feeding can be thinner, since the purpose of it isn't to feed sugar but to simulate a nectar flow so that the bees are encouraged to go out -- it can be even thinner, e.g. 1:2 (which in NL would be a 33.3% solution).
 
density(x)=sg(x)*density(water)
density(water) ~ 1kg/litre

yes
brix * gravity = kg/l (near enough)

Okay, here's the next conundrum. I have jerry cans with sugar and syrup (some of the sugar didn't dissolve, so it lies packed tightly at the bottom of the jerry can). I carefully pour off the syrup so that the syrup I pour off doesn't contain undissolved granules of sugar. I then weigh/measure the poured-off syrup to determine what percentage the solution is. The syrup is quite thick, so I imagine it will be 3:2 or 2:1 at least.

Now... 2 litres of syrup weighs 2.4 kg.
Then, what is the percentage of sugar in the syrup?

Maths is not my strong point, but my logic says that the water in the syrup weighs 1 kg per litre, so if I can deduct the water weight, I'll be left with the sugar weight.

2 litres of syrup = 2.4 kg
i.e. 1 litre of syrup = 1.2 kg
1 litre of syrup = 1 kg of water + X kg of sugar
i.e. 1 litre of this particular solution contains 200 g of sugar per litre of syrup (which seems quite low, actually)
If that logic/math is correct, then (consulting the brix table) my thick-looking syrup is actually a 20% solution. Right?

The syrup is also quite cloudy, so maybe if I heat it a bit the cloudiness will disappear (as one would expect of a good solution) and the syrup will become thinner.
 
Okay, here's the next conundrum. I have jerry cans with sugar and syrup (some of the sugar didn't dissolve, so it lies packed tightly at the bottom of the jerry can). I carefully pour off the syrup so that the syrup I pour off doesn't contain undissolved granules of sugar. I then weigh/measure the poured-off syrup to determine what percentage the solution is. The syrup is quite thick, so I imagine it will be 3:2 or 2:1 at least.

Now... 2 litres of syrup weighs 2.4 kg.
Then, what is the percentage of sugar in the syrup?

Maths is not my strong point, but my logic says that the water in the syrup weighs 1 kg per litre, so if I can deduct the water weight, I'll be left with the sugar weight.

2 litres of syrup = 2.4 kg
i.e. 1 litre of syrup = 1.2 kg
1 litre of syrup = 1 kg of water + X kg of sugar
i.e. 1 litre of this particular solution contains 200 g of sugar per litre of syrup (which seems quite low, actually)
If that logic/math is correct, then (consulting the brix table) my thick-looking syrup is actually a 20% solution. Right?

The syrup is also quite cloudy, so maybe if I heat it a bit the cloudiness will disappear (as one would expect of a good solution) and the syrup will become thinner.

no ... do it this way

1L =1.2Kg => 1.2 SG l
Then lookup 1.2 SG in the tables we get 44.1 Brix
sugar Kg /L = 0.441*1.2 =0.529 Kg/L
 
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no ... do it this way
1L =1.2Kg => 1.2 SG l
Then lookup 1.2 SG in the tables we get 44.1 Brix
sugar Kg /L = 0.441*1.2 =0.529 Kg/L

Fantastic, you are a great help. This stuff should be on beekeeping sites (or perhaps I'm just the odd one out for doing stuff with syrup that I should not...).

I wonder if you'll be willing to help me even more :) for the next formula (I'm not lazy, I'm just not good with maths):

It was past midnight and I added too much water to the mixture. In the morning, then the syrup had cooled, I discovered that my syrup is a 44% solution, but... I want to have an 60% solution. This means boiling the syrup (fortunately it's pure sugar cane plus pure water) until enough water evaporates for it to reach 60%.

The SG for 44% brix is 1.2 and the SG for 60% brix is 1.3. By how much should I reduce 1 litre of 44% syrup so that it becomes 60% syrup?

(the same formula could be used in the other direction... if one had 60% syrup, how much water should one add to get 44% syrup)

Thanks in advance
Samuel
 
Both are acceptable.

1 lb sugar + 1 pint water = 44.4% solution
1 lb sugar + 2 pints water = 28.5% solution

In NL the 1:1 solution is a 50% solution (we use kilograms and litres), but spring feeding can be thinner, since the purpose of it isn't to feed sugar but to simulate a nectar flow so that the bees are encouraged to go out -- it can be even thinner, e.g. 1:2 (which in NL would be a 33.3% solution).
Actually, most of us in the UK use kg and litres too. Sugar changed from 2 pound bags to 1 kg bags on the supermarket shelf over 30 years ago. Old books and Americans still use pints and pounds.

Burn the heretic.
 
Fantastic, you are a great help. This stuff should be on beekeeping sites (or perhaps I'm just the odd one out for doing stuff with syrup that I should not...).

I wonder if you'll be willing to help me even more :) for the next formula (I'm not lazy, I'm just not good with maths):

It was past midnight and I added too much water to the mixture. In the morning, then the syrup had cooled, I discovered that my syrup is a 44% solution, but... I want to have an 60% solution. This means boiling the syrup (fortunately it's pure sugar cane plus pure water) until enough water evaporates for it to reach 60%.

The SG for 44% brix is 1.2 and the SG for 60% brix is 1.3. By how much should I reduce 1 litre of 44% syrup so that it becomes 60% syrup?

(the same formula could be used in the other direction... if one had 60% syrup, how much water should one add to get 44% syrup)

Thanks in advance
Samuel

volume to unknown volume where amount of sugar is constant and source and destination Brix are known.

volume A @ brix X to volume B @ brix Y

SG(X) = table(brix(X))
weight(A) = vol(A)*SG(X)
sugar(A) = brix(A)*weight(A)

sugar(A) = sugar(B)

weight(B) = sugar(B)/brix(B)
SG(Y) = table(brix(Y))
Vol(B) = weight(B)/SG(Y)



you can use these as steps or substitute to get one equation.

Derek
 
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volume A @ brix X to volume B @ brix Y

SG(X) = table(brix(X))
weight(A) = vol(A)*SG(A)
sugar(A) = brix(A)*weight(A)

sugar(A) = sugar(B)

weight(B) = sugar(B)/brix(B)
SG(Y) = table(brix(Y))
Vol(B) = weight(B)/SG(Y)

Yeah... obvious. Why is the right answer always obvious (but the obvious answer not always the right one)? :)

(Thanks, by the way.)
 
... This means boiling the syrup (fortunately it's pure sugar cane plus pure water) until enough water evaporates for it to reach 60%....
That would be a very inefficient way of doing it, lots of time and energy. And increases HMF content more than you have to. Just warm it a little and add some more sugar. If you start with 44% by weight, every 100 g has 44 g of sugar and 56 g of water. To make it 60% you need 56 g x 1.5 sugar, so 84 g. Add another 40 g of sugar per 100 g syrup.
 
That would be a very inefficient way of doing it, lots of time and energy.

It took two hours for 5 litres.

And increases HMF content more than you have to.

Are you sure? I though HMF wouldn't increase if it's pure water and pure cane sugar (sucrose).

Just warm it a little and add some more sugar.

Me don't have more sugar :( but yes, that would be an easy way to do it.
 
It took two hours for 5 litres...Me don't have more sugar :( but yes, that would be an easy way to do it.
Turning water to steam takes energy, in an open pot over two hours a couple of kWh per litre I'd guess. It might be cheaper to spend money on sugar rather than energy for a lot of steam and heat you then have to get rid of.
Are you sure? I though HMF wouldn't increase if it's pure water and pure cane sugar (sucrose).
Heat sucrose syrup and it turns into glucose and fructose. Heat fructose and it turns into HMF. It's faster if there's acid present but still happens by just boiling syrup for a couple of hours. Exactly how much depends on such things as local hotspots in the pan because the process accelerates over 100C and how "hard" the water was (dissolved carbonates etc).
 
Easy enough to make up just the small amount of 2.5kg in 1 litre.
If you don't need it add some thymol and store in fridge then you can keep it till spring feed not forgetting to reduce the concentration to 1:1 ;)
Hi. How much thymol mix would you add to 2.5 kg sugar and 1 litre sugar syrup? Thank you
 
30g thymol crystals placed in honey jar,add 5ml of isopropyl alcohol to the crystals,place jar into a water bath of boiling water to speed up the dissolving process.
In another jar pour in 140 ml of boiling water and add 1 teaspoon of lecithin granules, stir well,and place this jar into a water bath of boiling water,stirring often for abot ten minutes or so until most of the lecithin granules have dissolved,you can then strain this mixture through a teastrainer or similar to remove any granules that have not dissolved fully,then simply add the dissolved thymol to this mix,and shake well,will look just like a jar of milk.
To use add 5ml to each gallon of syrup and stir well,
 
Hi. How much thymol mix would you add to 2.5 kg sugar and 1 litre sugar syrup? Thank you
I don’t know where I got the 2.5kg sugar bit 🤣 Sorry. 10 years ago! Struth!
Strong syrup is two lb of sugar to one pint water but my previous reply gives you the amount of thymol to put in made up syrup
 
I don’t know where I got the 2.5kg sugar bit 🤣 Sorry. 10 years ago! Struth!
Strong syrup is two lb of sugar to one pint water but my previous reply gives you the amount of thymol to put in made up syrup
Sorry. I didn't look at the date 🤣
 
30g thymol crystals placed in honey jar,add 5ml of isopropyl alcohol to the crystals,place jar into a water bath of boiling water to speed up the dissolving process.
In another jar pour in 140 ml of boiling water and add 1 teaspoon of lecithin granules, stir well,and place this jar into a water bath of boiling water,stirring often for abot ten minutes or so until most of the lecithin granules have dissolved,you can then strain this mixture through a teastrainer or similar to remove any granules that have not dissolved fully,then simply add the dissolved thymol to this mix,and shake well,will look just like a jar of milk.
To use add 5ml to each gallon of syrup and stir well,
Great thank you
 

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