Ethanol density table for ethanol water mixture at 20C | dilution made easy

Ethanol density table for ethanol water mixture at 20C

The ethanol density table for the ethanol-water mixture at 20 C. It contains Percentages by volume, % by weight, ethanol density, and relative densities.

Density of ethanol and water mixture at 20 C
عيار
الكحول
% وزناالكثافةالكثافة
النسبية
% v/v% w/wρ g/mLd 20/20
0.00.00.9981.000
1.00.80.9970.999
1.31.00.9960.998
2.01.60.9950.997
2.52.00.9950.996
3.02.40.9940.996
3.83.00.9930.995
4.03.20.9920.994
5.04.00.9910.993
6.04.80.9900.992
6.35.00.9890.991
7.05.60.9880.990
7.56.00.9880.990
8.06.40.9870.989
8.77.00.9860.988
9.07.20.9860.988
10.08.00.9850.987
11.08.80.9840.986
11.29.00.9830.985
12.09.60.9820.984
12.410.00.9820.984
13.010.50.9810.983
13.711.00.9800.982
14.011.30.9800.982
14.912.00.9790.981
15.012.10.9790.981
16.012.90.9780.980
16.113.00.9780.980
17.013.70.9770.979
17.314.00.9760.978
18.014.60.9760.978
18.515.00.9750.977
19.015.40.9750.977
19.716.00.9740.976
20.016.20.9740.976
20.917.00.9730.974
21.017.10.9720.974
22.017.90.9710.973
22.118.00.9710.973
23.018.70.9700.972
23.319.00.9700.972
24.019.60.9690.971
24.520.00.9690.970
25.020.40.9680.970
25.721.00.9670.969
26.021.20.9670.969
26.922.00.9660.968
27.022.10.9660.968
28.022.90.9650.967
28.123.00.9650.966
29.023.80.9630.965
29.324.00.9630.965
30.024.60.9620.964
30.525.00.9620.963
31.025.50.9610.963
31.626.00.9600.962
32.026.30.9600.962
32.827.00.9590.960
33.027.20.9580.960
34.028.00.9570.959
35.028.90.9560.958
35.129.00.9550.957
36.029.80.9540.956
36.330.00.9540.956
37.030.60.9530.955
37.431.00.9520.954
38.031.50.9510.953
38.532.00.9500.952
39.032.40.9500.952
39.733.00.9490.950
40.033.30.9480.950
40.834.00.9470.948
41.034.20.9460.948
41.935.00.9450.947
42.035.10.9450.947
43.036.00.9430.945
44.036.90.9410.943
44.137.00.9410.943
45.037.80.9400.942
45.238.00.9390.941
46.038.70.9380.940
46.339.00.9370.939
47.039.60.9360.938
47.440.00.9350.937
48.040.60.9340.936
48.541.00.9330.935
49.041.50.9320.934
49.542.00.9310.933
50.042.40.9300.932
50.643.00.9290.931
51.043.40.9280.930
51.744.00.9270.929
52.044.30.9260.928
52.745.00.9250.926
53.045.30.9240.926
53.846.00.9230.924
54.046.20.9220.924
54.847.00.9200.922
55.047.20.9200.922
55.848.00.9180.920
56.048.20.9180.920
56.949.00.9160.918
57.049.10.9160.918
57.950.00.9140.915
58.050.10.9140.916
58.951.00.9120.913
59.051.10.9110.913
59.952.00.9090.911
60.052.10.9090.911
60.953.00.9070.909
61.053.10.9070.909
61.954.00.9050.906
62.054.10.9050.907
62.955.00.9030.904
63.055.10.9020.904
63.956.00.9000.902
64.056.10.9000.902
64.857.00.8980.900
65.057.10.8980.900
65.858.00.8960.897
66.058.20.8950.897
66.859.00.8930.895
67.059.20.8930.895
67.760.00.8910.893
68.060.30.8900.892
68.761.00.8890.890
69.061.30.8880.890
69.662.00.8870.888
70.062.40.8860.888
70.663.00.8840.886
71.063.50.8830.885
71.564.00.8820.883
72.064.50.8810.883
72.465.00.8790.881
73.065.60.8780.880
73.366.00.8770.879
74.066.80.8750.877
74.367.00.8750.876
75.067.80.8730.875
75.268.00.8720.874
76.069.00.8700.872
76.169.00.8700.872
76.970.00.8680.869
77.070.10.8670.869
77.871.00.8650.867
78.071.20.8650.867
78.772.00.8630.864
79.072.30.8620.864
79.673.00.8600.862
80.073.50.8590.861
80.474.00.8580.860
81.074.70.8560.858
81.375.00.8560.857
82.075.80.8540.856
82.276.00.8530.855
83.077.00.8510.852
83.878.00.8480.850
84.078.20.8480.850
84.779.00.8460.847
85.079.40.8450.847
85.580.00.8430.845
86.080.60.8420.844
86.381.00.8410.842
87.081.90.8390.841
87.182.00.8380.840
87.983.00.8360.837
88.083.10.8360.838
88.784.00.8330.835
89.084.30.8330.834
89.585.00.8310.832
90.085.70.8290.830
90.386.00.8280.830
91.087.00.8260.827
91.888.00.8230.825
92.088.30.8220.823
92.589.00.8210.822
93.089.60.8190.820
93.390.00.8180.819
94.091.00.8150.817
94.792.00.8130.814
95.092.50.8110.812
95.192.60.8110.812
95.493.00.8100.811
96.093.90.8070.808
96.194.00.8070.809
96.895.00.8040.806
96.995.10.8040.805
97.095.30.8030.804
97.596.00.8010.803
98.096.80.7990.800
98.197.00.7980.800
98.898.00.7950.797
99.098.30.7950.796
99.899.00.7950.797
100.0100.00.7890.791

for more info about the density of ethanol see https://en.wikipedia.org/wiki/Ethanol

Dilution of ethanol using ethanol density table

Ethanol is usually sold in volumetric concentrations, other concentrations may be required to be prepared from it. dilution calculations are not as easy as they appear. thought they are divided into the following sections

1- Preparation of a weight concentration of pure absolute ethanol

To prepare a concentration of 70% by weight, for example, from ethanol, we take 70 grams of pure ethanol with 30 grams of water, and this is the concentration recommended by the World Health Organization for COVID-19.

Amount of alcohol by weight = quantity to be prepared × desired concentration / 100

Amount of water by weight = Amount to be prepared – Amount of alcohol required

Example 1 – 1:  preparing 1000 g of ethanol 70% w/w using pure absolute ethanol

Amount of alcohol by weight = 1000 × 70 / 100= 700 grams
Amount of water by weight = 1000 – 700 = 300 grams

2- Adding water to an amount of pure absolute ethanol to reach a specified concentration

If we have a quantity of absolute alcohol, let it be 1000 grams, and we want to prepare 70% w/w alcohol from it, how much water is required to be added

If the amount of alcohol available is by volume, it is converted to weight by multiplying by density

Weight of available pure alcohol = volume of available pure alcohol × density of pure alcohol

The density of pure alcohol: ρ = 0.789 g/mL

Determine the total weight produced
Total weight = weight of pure alcohol × 100 / required concentration

Determine the weight of the water
Weight of water = total weight – the weight of alcohol

Example 2 – 1: adding water to a 1000ml of pure absolute ethanol to reach a specified 70% w/w

Available alcohol weight = Volume of alchohol  × alchohol density

Available alcohol weight = 1000 × 0.789 = 789 grams

Total weight = weight of pure alcohol × 100 / required concentration

Total weight = 789 × 100 / 70 = 1127 grams

Water weight = 1127 – 789 = 338 grams

Example 2- 2- dilution of 160 kg of pure alcohol

Available alcohol weight = 160 kg
Total weight = 160 × 100 / 70 = 228 kilograms
Water weight = 228 – 160 = 68 kg

3- Prepare a volumetric solution of pure absolute ethanol

For the preparation of ethanol a concentration of 76.9% v/v from pure ethanol

from the ethanol density table, we seek the weight percentage that meets the required volumetric percentage.

From the table  76.9% v/v is equal to 70% w/w

After this step, we go ahead as example 1

4- Preparation of a specific w/w concentration using 96% v/v ethanol

Ethanol is sold in the market in volumetric concentration, and for the purpose of sterilization, ethanol at a concentration of 70% by weight is required

The first step is to know the weight concentration corresponding to the purchased ethanol. Then we look at the ethanol density table

We note that 96% v/v (by volume) corresponds to 93.9% w/w (by weight)

Weight of commercial alcohol required =
quantity to be prepared (g) × concentration of alcohol to be prepared  ÷ concentration of commercial alcohol

Weight of water required = Amount to be prepared – Weight of commercial alcohol required

Example 4- 1: preparing 1000 g of 70% w/w alcohol from ethanol 96% v/v.

From the ethanol density table, we find that 96% by volume of ethanol is equivalent to 93.9% by weight

Weight of commercial alcohol required = 1000 × 70 ÷ 93.9 = 745 g
Required water weight = 1000 – 745 = 255 grams

Example 4- 2: preparing 1000 ml of 70% w/w alcohol from ethanol 96% v/v.

From the ethanol density table, we find that 96% by volume of ethanol is equivalent to 93.9% by weight

Weight of required = volume x denisty

Density of 70% w/w alchol form the ethanol density table is: ρ = 0.868 g/mL

Weight required = Volume required × density = 1000 × 0.868 = 868 g.

Weight of commercial alcohol required = 868 × 70 ÷ 93.9 = 647 g
Required water weight = 868 – 647= 221 grams

5- diluting a specific weight of 96% v/v ethanol to reach a concentration of 70% w/w

  • If the available quantity is in kilos, we will take it as is
  • If the available quantity is in liters, we do the following
  • We take the density of alcohol available from the table of the density of ethanol
  • We multiply the volume of ethanol by its density to determine its weight
  • Weight of ethanol = volume of ethanol × density of available ethanol

from the ethanol density table we found that 96% v/v  = 93.9% w/w by weight

Total weight produced =
Weight of available ethanol × required ethanol concentration % w/w
÷ commercial alcohol concentration % w/w

Weight of water required = Total weight produced – Weight of commercial alcohol required

Example 5- 1- diluting 1000 ml of ethanol 96% v/v to reach a concentration of 70% w/w

Determining the weight of alcohol available:
* From the table of the density of ethanol, we find that the density of ethanol 96% is 0.807
* Available weight of ethanol is 1000 × 0.807 = 807 g
The weight concentration of ethanol available from the ethanol density table, we find that 96% by volume of ethanol is equivalent to 93.9% by weight
Weight of the resulting achohol = 807 × 93.9 ÷ 70 = 1082 grams
Required water weight = 1082 – 807 = 275 grams

Example 5- 2- A second practical application: extending 160 kg of 96% v/v alcohol to reach 70% w/w ethanol

Determining the weight of alcohol available:
* The available weight of ethanol is 160 kg given by weight, so there is no need to multiply it with anything
Total weight of the product = 160 × 93.9 ÷ 70 = 214 kg
Weight of water required = 214 – 160 = 54 kg

Example 5- 3: diluting of 160 kg of alcohol 99% v/v by volume to reach ethanol 75% by weight

from the ethanol density table 99% by volume of ethanol is equivalent to 98.3% by weight
Total weight of the product = 160 × 98.3 ÷ 75 = 210 kg
Weight of water required = 210 – 160 = 50 kg

 

 

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