This work presents the Sincro-ATP model, a breakthrough bio-inspired energy system that overcomes the stochastic limitations of traditional bioenergetics through enforced collective coherence. Developed as a practical application of the Chronocentric Cosmology v5.0 and Chronocentric Plasma Dynamics (CPD), the system synchronizes an array of ATP synthase molecular motors using a global 642 Hz ELF (Extremely Low Frequency) driver. Key features of the model include: Phase-Lock Dynamics: Integration of the Kuramoto-Adler model with Temporal Flux-Driven Dynamics (TFDD) to stabilize enzymatic rotation via temporal vorticity (\Omega_\tau). Golden-Ratio Optimization: Spatial arrangement of microcells following a Fermat (Golden) spiral to minimize collective phase jitter and maximize density. High-Efficiency Transduction: Utilization of graphene and MXene electrodes to capture the 24e^- flux per glucose molecule, targeting a macroscopic efficiency of 70–85%. Closed-Loop Sustainability: A regenerative O_2/CO_2 cycle supported by integrated artificial photosynthesis, ensuring long-term homeostasis. This simulation demonstrates that enforcing macroscopic quantum-like coherence in biological systems allows them to operate near theoretical thermodynamic limits, providing a scalable roadmap for next-generation sustainable power modules