The available pulses in Wavenet Explorer is:
[table="width: 500, class: grid, align: left"]
Constant Entry in Dropdown Meaning
0.002 (l;Wh) This means for every pulse that the waveflow gets, 0.002 liters or 0.000002kWh are added to the total
0.003 (l;Wh) This means for every pulse that the waveflow gets, 0.003 liters or 0.000003kWh are added to the total
0.004 (l;Wh) This means for every pulse that the waveflow gets, 0.004 liters or 0.000004kWh are added to the total
0.005 (l;Wh) This means for every pulse that the waveflow gets, 0.005 liters or 0.000005kWh are added to the total
0.006 (l;Wh) This means for every pulse that the waveflow gets, 0.006 liters or 0.000006kWh are added to the total
0.007 (l;Wh) This means for every pulse that the waveflow gets, 0.007 liters or 0.000007kWh are added to the total
0.008 (l;Wh) This means for every pulse that the waveflow gets, 0.008 liters or 0.000008kWh are added to the total
0.009 (l;Wh) This means for every pulse that the waveflow gets, 0.009 liters or 0.000009kWh are added to the total
0.01 (l;Wh) This means for every pulse that the waveflow gets, 0.01 liters or 0.00001 kWh are added to the total
0.011 (l;Wh) This means for every pulse that the waveflow gets, 0.011 liters or 0.000011kWh are added to the total
0.012 (l;Wh) This means for every pulse that the waveflow gets, 0.012 liters or 0.000012kWh are added to the total
0.013 (l;Wh) This means for every pulse that the waveflow gets, 0.013 liters or 0.000013kWh are added to the total
0.014 (l;Wh) This means for every pulse that the waveflow gets, 0.014 liters or 0.000014kWh are added to the total
0.015 (l;Wh) This means for every pulse that the waveflow gets, 0.015 liters or 0.000015kWh are added to the total
0.2 (l;Wh) This means for every pulse that the waveflow gets, 0.2 liters or 0.0002kWh are added to the total
0.3 (l;Wh) This means for every pulse that the waveflow gets, 0.3 liters or 0.0003kWh are added to the total
0.4 (l;Wh) This means for every pulse that the waveflow gets, 0.4 liters or 0.0004kWh are added to the total
0.5 (l;Wh) This means for every pulse that the waveflow gets, 0.5 liters or 0.0005kWh are added to the total
0.6 (l;Wh) This means for every pulse that the waveflow gets, 0.6 liters or 0.0006kWh are added to the total
0.7 (l;Wh) This means for every pulse that the waveflow gets, 0.7 liters or 0.0007kWh are added to the total
0.8 (l;Wh) This means for every pulse that the waveflow gets, 0.8 liters or 0.0008kWh are added to the total
0.9 (l;Wh) This means for every pulse that the waveflow gets, 0.9 liters or 0.0009kWh are added to the total
1.0 (l;Wh) This means for every pulse that the waveflow gets, 1.0 liters or 0.001 kWh are added to the total
1.1 (l;Wh) This means for every pulse that the waveflow gets, 1.1 liters or 0.0011kWh are added to the total
1.2 (l;Wh) This means for every pulse that the waveflow gets, 1.2 liters or 0.0012kWh are added to the total
1.3 (l;Wh) This means for every pulse that the waveflow gets, 1.3 liters or 0.0013kWh are added to the total
1.4 (l;Wh) This means for every pulse that the waveflow gets, 1.4 liters or 0.0014kWh are added to the total
1.5 (l;Wh) This means for every pulse that the waveflow gets, 1.5 liters or 0.0015kWh are added to the total
2 (l;Wh) This means for every pulse that the waveflow gets, 2 liters or 0.002kWh are added to the total
3 (l;Wh) This means for every pulse that the waveflow gets, 3 liters or 0.003kWh are added to the total
4 (l;Wh) This means for every pulse that the waveflow gets, 4 liters or 0.004kWh are added to the total
5 (l;Wh) This means for every pulse that the waveflow gets, 5 liters or 0.005kWh are added to the total
6 (l;Wh) This means for every pulse that the waveflow gets, 6 liters or 0.006kWh are added to the total
7 (l;Wh) This means for every pulse that the waveflow gets, 7 liters or 0.007kWh are added to the total
8 (l;Wh) This means for every pulse that the waveflow gets, 8 liters or 0.008kWh are added to the total
9 (l;Wh) This means for every pulse that the waveflow gets, 9 liters or 0.009kWh are added to the total
10 (l;Wh) This means for every pulse that the waveflow gets, 10 liters or 0.01 kWh are added to the total
11 (l;Wh) This means for every pulse that the waveflow gets, 11 liters or 0.011kWh are added to the total
12 (l;Wh) This means for every pulse that the waveflow gets, 12 liters or 0.012kWh are added to the total
13 (l;Wh) This means for every pulse that the waveflow gets, 13 liters or 0.013kWh are added to the total
14 (l;Wh) This means for every pulse that the waveflow gets, 14 liters or 0.014kWh are added to the total
15 (l;Wh) This means for every pulse that the waveflow gets, 15 liters or 0.015kWh are added to the total
20 (l;Wh) This means for every pulse that the waveflow gets, 20 liters or 0.02kWh are added to the total
30 (l;Wh) This means for every pulse that the waveflow gets, 30 liters or 0.03kWh are added to the total
40 (l;Wh) This means for every pulse that the waveflow gets, 40 liters or 0.04kWh are added to the total
50 (l;Wh) This means for every pulse that the waveflow gets, 50 liters or 0.05kWh are added to the total
60 (l;Wh) This means for every pulse that the waveflow gets, 60 liters or 0.06kWh are added to the total
70 (l;Wh) This means for every pulse that the waveflow gets, 70 liters or 0.07kWh are added to the total
80 (l;Wh) This means for every pulse that the waveflow gets, 80 liters or 0.08kWh are added to the total
90 (l;Wh) This means for every pulse that the waveflow gets, 90 liters or 0.09kWh are added to the total

[table="width: 500, class: grid, align: left"]
Constant Entry in Dropdown Meaning
0.10 (m3;kWh) This means for every pulse that the waveflow gets, 100 liters or 0.1 kWh are added to the total
0.11 (m3;kWh) This means for every pulse that the waveflow gets, 110 liters or 0.11kWh are added to the total
0.12 (m3;kWh) This means for every pulse that the waveflow gets, 120 liters or 0.12kWh are added to the total
0.13 (m3;kWh) This means for every pulse that the waveflow gets, 130 liters or 0.13kWh are added to the total
0.14 (m3;kWh) This means for every pulse that the waveflow gets, 140 liters or 0.14kWh are added to the total
0.15 (m3;kWh) This means for every pulse that the waveflow gets, 150 liters or 0.15kWh are added to the total
0.2 (m3;kWh) This means for every pulse that the waveflow gets, 0.2 cubic liters or 0.2kWh are added to the total
0.3 (m3;kWh) This means for every pulse that the waveflow gets, 0.3 cubic liters or 0.3kWh are added to the total
0.4 (m3;kWh) This means for every pulse that the waveflow gets, 0.4 cubic liters or 0.4kWh are added to the total
0.5 (m3;kWh) This means for every pulse that the waveflow gets, 0.5 cubic liters or 0.5kWh are added to the total
0.6 (m3;kWh) This means for every pulse that the waveflow gets, 0.6 cubic liters or 0.6kWh are added to the total
0.7 (m3;kWh) This means for every pulse that the waveflow gets, 0.7 cubic liters or 0.7kWh are added to the total
0.8 (m3;kWh) This means for every pulse that the waveflow gets, 0.8 cubic liters or 0.8kWh are added to the total
0.9 (m3;kWh) This means for every pulse that the waveflow gets, 0.9 cubic liters or 0.9kWh are added to the total
1.0 (m3;kWh) This means for every pulse that the waveflow gets, 1.0 cubic liters or 1.0kWh are added to the total
1.1 (m3;kWh) This means for every pulse that the waveflow gets, 1.1 cubic liters or 1.1kWh are added to the total
1.2 (m3;kWh) This means for every pulse that the waveflow gets, 1.2 cubic liters or 1.2kWh are added to the total
1.3 (m3;kWh) This means for every pulse that the waveflow gets, 1.3 cubic liters or 1.3kWh are added to the total
1.4 (m3;kWh) This means for every pulse that the waveflow gets, 1.4 cubic liters or 1.4kWh are added to the total
1.5 (m3;kWh) This means for every pulse that the waveflow gets, 1.5 cubic liters or 1.5kWh are added to the total
2 (m3;kWh) This means for every pulse that the waveflow gets, 2 cubic liters or 2kWh are added to the total
3 (m3;kWh) This means for every pulse that the waveflow gets, 3 cubic liters or 3kWh are added to the total
4 (m3;kWh) This means for every pulse that the waveflow gets, 4 cubic liters or 4kWh are added to the total
5 (m3;kWh) This means for every pulse that the waveflow gets, 5 cubic liters or 5kWh are added to the total
6 (m3;kWh) This means for every pulse that the waveflow gets, 6 cubic liters or 6kWh are added to the total
7 (m3;kWh) This means for every pulse that the waveflow gets, 7 cubic liters or 7kWh are added to the total
8 (m3;kWh) This means for every pulse that the waveflow gets, 8 cubic liters or 8kWh are added to the total
9 (m3;kWh) This means for every pulse that the waveflow gets, 9 cubic liters or 9kWh are added to the total
10 (m3;kWh) This means for every pulse that the waveflow gets, 10 cubic liters or 10kWh are added to the total
11 (m3;kWh) This means for every pulse that the waveflow gets, 11 cubic liters or 11kWh are added to the total
12 (m3;kWh) This means for every pulse that the waveflow gets, 12 cubic liters or 12kWh are added to the total
13 (m3;kWh) This means for every pulse that the waveflow gets, 13 cubic liters or 13kWh are added to the total
14 (m3;kWh) This means for every pulse that the waveflow gets, 14 cubic liters or 14kWh are added to the total
15 (m3;kWh) This means for every pulse that the waveflow gets, 15 cubic liters or 15kWh are added to the total
20 (m3;kWh) This means for every pulse that the waveflow gets, 20 cubic liters or 20kWh are added to the total
30 (m3;kWh) This means for every pulse that the waveflow gets, 30 cubic liters or 30kWh are added to the total
40 (m3;kWh) This means for every pulse that the waveflow gets, 40 cubic liters or 40kWh are added to the total
50 (m3;kWh) This means for every pulse that the waveflow gets, 50 cubic liters or 50kWh are added to the total
60 (m3;kWh) This means for every pulse that the waveflow gets, 60 cubic liters or 60kWh are added to the total
70 (m3;kWh) This means for every pulse that the waveflow gets, 70 cubic liters or 70kWh are added to the total
80 (m3;kWh) This means for every pulse that the waveflow gets, 80 cubic liters or 80kWh are added to the total
90 (m3;kWh) This means for every pulse that the waveflow gets, 90 cubic liters or 90kWh are added to the total
100 (m3;kWh) This means for every pulse that the waveflow gets, 100 cubic liters or 100kWh are added to the total
110 (m3;kWh) This means for every pulse that the waveflow gets, 110 cubic liters or 110kWh are added to the total
120 (m3;kWh) This means for every pulse that the waveflow gets, 120 cubic liters or 120kWh are added to the total
130 (m3;kWh) This means for every pulse that the waveflow gets, 130 cubic liters or 130kWh are added to the total
140 (m3;kWh) This means for every pulse that the waveflow gets, 140 cubic liters or 140kWh are added to the total
150 (m3;kWh) This means for every pulse that the waveflow gets, 150 cubic liters or 150kWh are added to the total