Blockchain technology offers transformative potential across distributed computing domains; however, dominant consensus mechanisms such as Proof of Work (PoW) impose severe energy and carbon costs, and existing research addresses only isolated components—consensus, storage, or sharding—rather than the full architectural system. This paper introduces the Energy-Optimized Blockchain Architecture (EOBA), the first nine-layer framework in which energy awareness is a foundational, cross-cutting design principle embedded across all architectural layers. EOBA integrates energy monitoring, hybrid energy-aware consensus, energy-guided task scheduling, dynamic sharding, hybrid on-chain/off-chain s... More >