A Gravıty-Based Modular Energy Generator Integrated With Water Infrastructure

Unofficial AI-generated summary based on the public title and abstract. Not an official translation.

🔬研究者:Researchers in energy-water nexus, GeoAI, and modular system design can explore the presented framework and site selection methodology.

🏢実務担当者:Practitioners in water infrastructure and energy planning may use the multi-purpose reservoir concept for rural development projects.

🏛政策担当者:Policymakers interested in rural energy access and water management can consider the potential of integrated modular systems for sustainable development.

This record contains the final illustrated archival monograph titled A Gravity-Based Modular Energy Generator Integrated with Water Infrastructure. The work presents a modular energy–water infrastructure concept adapted to selected hydro-topographic and rural development contexts, with particular attention to Türkiye-scale applicability, advanced pre-feasibility screening, GeoAI-supported site selection, multi-purpose lower reservoir design, and selective biomass/microalgae side-stream integration. The monograph does not present the proposed system as a universal energy solution. Instead, it defines a product-family framework in which strong, conditional, and out-of-scope contexts are explicitly separated. The technical core is treated through a torque-based and kinematic design logic, including effective head, reliable low flow, tank cycle continuity, drum speed, gearbox ratio, line pull, differential mass, transition buffering, and fail-safe control architecture. The spatial decision layer is developed through hydrology, topography, geotechnical constraints, environmental conditions, grid/access indicators, AHP/MCDA scoring, Random Forest audit logic, uncertainty correction, and pilot-site validation. The lower reservoir is treated as a multi-purpose rural water-infrastructure node rather than a passive discharge basin. It is structured around hydraulic damping, sedimentation, service-water allocation, fire reserve, agricultural and livestock support, controlled return-to-nature logic, selective recreation, and limited aquaculture where appropriate. A selective microalgae/biomass side-stream is also discussed as an optional environmental and innovation layer, not as the primary energy basis of the system. The uploaded files include the final illustrated monograph, an editable DOCX source version, an executive summary, and a chapter-based visual portfolio. The work is intended for Zenodo archiving, institutional presentation, academic discussion, pilot preparation, and future technical refinement. It should be read as an advanced conceptual and pre-feasibility technical monograph rather than a final engineering design, tender file, or investment decision document.

• openalex https://doi.org/10.5281/zenodo.20025998first seen 2026-05-23 05:03:13 · last seen 2026-06-03 04:42:44