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Main Author: Saošyant
Format: Recurso digital
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Published: Zenodo 2025
Online Access:https://doi.org/10.5281/zenodo.18034392
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author Saošyant
author_facet Saošyant
contents <p>The Tehran water crisis has reached a red alert stage in the fall of 2025. The storage of the five main dams supplying Tehran is less than 12% of capacity.</p> <p>This scientific-technical proposal presents an 18-month pilot project with a budget of $90–140 million (average $126 million), aiming to increase precipitation by 9–22% in suitable clouds in the central Alborz basin using a combined hygroscopic (CaCO₃/CaCl₂) and glaciogenic (nano-encapsulated AgI) seeding method.</p> <p>This approach has been successfully tested in the UAE, China, and the USA, is completely safe, and is feasible with domestic facilities.</p> <p>Globally verified average effectiveness: 8–23% precipitation increase in seedable clouds.</p>
format Recurso digital
id zenodo_https___doi_org_10_5281_zenodo_18034392
institution Zenodo
language
publishDate 2025
publisher Zenodo
record_format zenodo
spellingShingle Using Combined Hygroscopic and Glaciogenic Cloud Seeding (Safe CaCO₃/CaCl₂ and Nano-Encapsulated AgI Materials)
Saošyant
<p>The Tehran water crisis has reached a red alert stage in the fall of 2025. The storage of the five main dams supplying Tehran is less than 12% of capacity.</p> <p>This scientific-technical proposal presents an 18-month pilot project with a budget of $90–140 million (average $126 million), aiming to increase precipitation by 9–22% in suitable clouds in the central Alborz basin using a combined hygroscopic (CaCO₃/CaCl₂) and glaciogenic (nano-encapsulated AgI) seeding method.</p> <p>This approach has been successfully tested in the UAE, China, and the USA, is completely safe, and is feasible with domestic facilities.</p> <p>Globally verified average effectiveness: 8–23% precipitation increase in seedable clouds.</p>
title Using Combined Hygroscopic and Glaciogenic Cloud Seeding (Safe CaCO₃/CaCl₂ and Nano-Encapsulated AgI Materials)
url https://doi.org/10.5281/zenodo.18034392