Enhancing Water Security through Hybrid Rainwater Harvesting and Storage Infrastructures

Deepak N. Kakade; Vijay Pundalik Talodhikar; Shilpy Singh; Saurav Ashok Choure; Syed Aherar Syed Anwar Qadri; Quraishi Saihla Mishkwat Wasiq Ali

doi:10.3362/waterlines.v44i1.623

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Published: Mar 16, 2026

DOI: https://doi.org/10.3362/waterlines.v44i1.623

Keywords:

Hybrid Rainwater Harvesting, Water Security, WASH Practice Settings

Deepak N. Kakade

Associate Professor and Head of Civil Engineering Department, P. E. S. College of Engineering, Ch. Sambhajinagar India

Vijay Pundalik Talodhikar

Department of Mechanical Engineering, Suryodaya College of Engineering and Technology, Nagpur, Maharashtra, India

Shilpy Singh

Department of Biotechnology and Microbiology, Noida International University,Greater Noida, Uttar Pradesh, India

Saurav Ashok Choure

Department of Civil Engineering P. E. S. College of Engineering, Ch. Sambhajinagar India

Syed Aherar Syed Anwar Qadri

PG Student of Civil Engineering Department, P. E. S. College of Engineering, Ch. Sambhajinagar India

Quraishi Saihla Mishkwat Wasiq Ali

Research Scholar, Civil Engineering Department, P. E. S. College of Engineering, Ch. Sambhajinagar India

Abstract

Rainwater harvesting and storage are widely used in WASH, unfortunately design guidance often treats them as separate parts. This creates an issue in explaining how combined capture and storage options affect water security under different climate, governance, and maintenance capacity conditions. This article provides a practice-oriented conceptual framework that defines water security as availability, reliability, quality protection, access continuity, and maintainability. It then links design logic on redundancy and switching between sources to the pathways that explain how these choices work, with clear boundary conditions. The framework is tested using contrasting illustrative scenarios. It also sets out a path for future evaluation, with candidate metrics, propositions, and implementation questions. The main contribution is a decision logic that can be checked and rebuilt from its steps. It avoids site-specific performance claims and may inform safer real-world use by engineers, NGOs, and policy makers planning rainwater-dependent services.

How to Cite

Kakade, D. N., Talodhikar, V. P., Singh, S., Choure, S. A., Anwar Qadri, S. A. S., & Wasiq Ali, Q. S. M. (2026). Enhancing Water Security through Hybrid Rainwater Harvesting and Storage Infrastructures. Waterlines, 44(1), 136–146. https://doi.org/10.3362/waterlines.v44i1.623

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Vol. 44 No. 1 (2026)

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Articles

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Enhancing Water Security through Hybrid Rainwater Harvesting and Storage Infrastructures

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