Examples of Total energy input in a sentence
Total energy input" means, with regard to a cogeneration unit, total energy of all forms supplied to the cogeneration unit, excluding energy produced by the cogeneration unit itself.
Based on the results of the investigations, the following conclusions were drawn:(1) Total energy input for almond production was found to be 106.61GJ/ha and energy output was calculated as 39.26GJ/ha.
Total energy input is a CES aggregate of fossil fuel and alternative energy input and factor-augmenting progress may increase the efficiency of each of them.
The necessary input of energy depends on the desired level of activities (for instance, the desired material standard of living) and the available technology: Total energy input = energy input per activity * level of activity (7.4) Reducing the total energy input can thus be achieved by reducing the required energy input per activity (’doing the same with less’) or by reducing the level of activity (’doing less with much less’).
Total energy input to the column was varied by preheatingethanol and lactic acid feed streams; in essence, this preheating is equivalent to adding reboiler duty as it provides more vapor flow in the column.
Total energy input, on the other hand, is defined as the total kilograms of fuel used multiplied by the Higher Heating Value (HHV) of the fuel input/s as received.
Total energy input for durum wheat grown after fallow or pea was lower than that of durum after durum wheat, but no differ- ences in grain energy were observed for durum wheat grown after various other crops (Fig.
Total energy input for rotation systems under NT was lower than under MT but no significant influence of tillage on grain energy was obtained (Table 5).Total energy input ranged from 4499 MJ ha—1 yr—1 for low N level treatments to 7508 MJ ha—1 yr—1 for high N level treatments inthe stubble experiment, largely reflecting differences in N fertilizer input, which accounted for 52e71% of total energy input (Table 4).
Total energy input CHP 100 power + 160 heat + 65 losses = 325 Total energy input Conventional 100 power + 165 losses + 160 heat + 40 losses = 465 This gives a saving of (465-325)/465 = 30% primary energy saving.
Total energy input to equivalent systems is an indicator of overall efficiency.