Page:Popular Science Monthly Volume 76.djvu/246

required to drive the feed water pump), and the quantity of heat ${\displaystyle H_{2}}$ is delivered to the condenser.

According to the first law of thermodynamics, the work ${\displaystyle W}$ must be equal to ${\displaystyle H_{1}-H_{2}}$, both quantities of heat being expressed in energy units. Therefore

${\displaystyle W=H_{1}-H_{2}}$

(9)

As far as the net result is concerned the operation of the steam engine may be thought of as (a) the conversion into work of the whole of the heat H₁ from temperature T₁, and (b) the reconversion of a

Fig. 1.

portion ${\displaystyle H_{2}}$ of this work into heat at temperature ${\displaystyle T_{2}}$. The regeneration^[1] associated with process (a) is equal to ${\displaystyle H_{1}/T_{1}}$ according to equation (8), and the degeneration associated with process (b) is equal to ${\displaystyle H_{2}/T_{2}}$ according to equation (8). If the operation of the engine involves sweeping processes, then the degeneration ${\displaystyle H_{2}/T_{2}}$ must exceed the regeneration ${\displaystyle H_{1}/T_{1}}$, that is, we must have

style="text-align:center;"|${\displaystyle H_{2}/T_{2}>H_{1}/T_{1}}$

(10)

or, substituting the value of ${\displaystyle H_{2}}$ from equation (9) and solving for ${\displaystyle W}$, we have

${\displaystyle W<{\frac {T_{1}-T_{2}}{T_{1}}}H_{1}}$

(11)

The fractional part ${\displaystyle [(T_{1}-T_{2})/T_{1}]}$ of the heat ${\displaystyle H_{1}}$ which is converted into work by the engine is called the efficiency of the engine, and the inequality (11) shows that the efficiency of any engine working between temperatures ${\displaystyle T_{1}}$ and ${\displaystyle T_{2}}$ must be less than ${\displaystyle [(T_{1}-T_{2})/T_{1}]}$ whatever the nature of the working fluid and whatever the design of the engine.

The Perfect Engine.—An engine involving no irreversible or sweep-

1. To convert an amount of work ${\displaystyle W}$ into heat at a given temperature involves an amount of degeneration, and to convert the heat into work involves the same amount of what may be called thermodynamic regeneration.