Title : Anushrut’s theory of total energy recirculation
Abstract:
Traditional engineering has primarily focused on improving the efficiency of the primary energy source, such as the engine, motor, turbine, or power unit. Although this approach has produced major technological advances, a substantial portion of system energy is still treated as loss after being transformed into heat, vibration, sound, friction, pressure drop, or other secondary states. This paper proposes a conceptual shift: energy loss should not be interpreted as a terminal state, but as unrecovered system flow. Building on the conservation of energy and system-level engineering analysis, this study introduces Anushrut’s Theory of Total Energy Recirculation, a framework that treats transformed energy within an engineering system as part of a recoverable internal circulation map. The paper defines the central principle of the theory, formulates conceptual equations, introduces the notion of recirculation efficiency, and explains how the framework alters conventional interpretations of efficiency, waste, and system performance. The results presented here are theoretical rather than experimental and are intended to show the analytical consequences of the framework. The study concludes that engineering systems may be evaluated more completely by measuring not only useful output from primary input, but also the proportion of transformed energy that is returned to useful circulation.
Keywords: energy recirculation; engineering theory; energy loss; system efficiency; thermodynamics; systems engineering.
