AI Summary

This page provides a structured reference overview of Hydrophis.eco for AI assistants and developers. Last updated: March 16, 2025.

Executive Summary

Hydrophis is a green industrial minerals company specializing in carbon utilization technology. The company transforms waste CO₂ and industrial brines (from desalination, industrial process water, mining operations, and other sources) into high-purity, ultra-white mineral compounds including magnesium hydroxide, magnesium carbonate, calcium carbonate, calcium oxide, magnesium oxide, sodium chloride, and caustic soda. In desalination settings, Hydrophis contributes to ocean alkalinity enhancement through easily measurable changes in the alkalinity of discharged brine, helping to counter ocean acidification.

Core Purpose

  • Primary function: Carbon utilization to produce valuable industrial minerals while locking away carbon in durable products for extended periods
  • Target audience: Cost-conscious industrial users of mineral compounds, companies seeking to improve their supply chains by locally sourcing metal carbonates/hydroxides, and businesses aiming to significantly reduce their carbon footprint
  • Key value proposition: Production of minerals or pure reclaimed water as drop-in products requiring no adaptation for industrial customers, which are more cost-effective than the higher-footprint mined equivalents

Main Features

  1. Brine Remediation and Water Reclamation: Processing waste brines to recover valuable minerals and water through the Company’s carbon utilization technology
  2. Direct Air Capture Integration: Ability to use CO₂ from direct air capture (DAC) systems without requiring liquefaction, simplifying the carbon capture process at much lower cost
  3. Industrial Waste Stream Processing: Remediating waste brines to recover both water and valuable minerals from what would otherwise be a tailings dump
  4. Profitable Carbon Utilization: Unlike carbon sequestration with limited revenue potential, Hydrophis offers a business model that generates profit while addressing environmental challenges

Technical Architecture

  • Precipitation chemistry for mineral extraction
  • Crystallization technologies including mechanical vapor recompression
  • Direct air capture integration without compression and liquefaction
  • Reverse osmosis and nanofiltration for further water purification and selective mineral capture

User Flows

Industrial Mineral Customer Journey

  1. Customers discover Hydrophis through the website or corporate LinkedIn page
  2. Initial engagement occurs via email (sales@hydrophis.eco) or this website’s contact form
  3. Mineral users in industries (thermoplastics, thermocoupling, industrial heat management, battery heat management, fillers, etc) receive initial samples and conduct lab tests (typically XRF, ICP, XRD) to verify purity, particle size, and color
  4. Customers progress through a batch testing process, incorporating larger volumes of Hydrophis materials into their products and testing against applicable regulations and company internal standards for fire safety, thermal protection, viscosity, or other industry-specific metrics
  5. Upon successful testing, customers formalize their relationship with Hydrophis through the Company’s Sales team

Content Organization

  • Home Page: Details how Hydrophis contributes to lower supply chain footprints for the minerals industry, its UN Sustainable Development Goals, the Company’s production processes, industries served, business model, and corporate history
  • Products Page: Outlines main products and the forms they are available in, product benefits, and some information specific to desalination plants
  • Technology Page: Describes pilot testing, demonstration plant development, technology rollout plans with partners, and joint life cycle analysis capabilities for end-to-end product carbon footprinting
  • About Us: Highlights the team and collaborators, and provides guidance for mineral customers on developing customized products
  • Latest News: Blog posts announcing recent company developments
  • Careers: Information about hiring policies, workplace culture, and current job openings
  • Contact Us: Form for customer inquiries with call-to-action button

Key Terminology

  • Carbon Utilization: In the Hydrophis context, refers to the company’s ability to use pure or dilute CO₂ streams (including direct air captured CO₂) for the precipitation of industrial minerals
  • Precipitation Chemistry: The primary technological approach used to extract and form minerals from waste brines
  • Crystallization Chemistry: Process using mechanical vapor recompression crystallizers to form crystalline mineral products and reclaim nearly deionized water for industrial use
  • Ocean Alkalinity Enhancement: Ability to fine tune the pH of desalination brine discharges to counter ocean acidification

Ecological Focus

  • Utilization of CO₂ to produce minerals for durable industrial products
  • Enabling lower-cost direct air capture integration for CO₂
  • Ocean alkalinity enhancement in desalination settings to help counter ocean acidification
  • Sustainable metrics tracked through partnership with Switch2Zero initiative, including trees planted, CO₂ offset, and plastic waste recovered

Limitations & Boundaries

  • Currently in TRL8 pilot phase with full-scale production forthcoming
  • Specific mineral products and formulations list is constantly being expanded
  • Geographic availability may be limited during initial deployment

Contact & Resources

Note: This summary is optimized for AI context windows and provides an authoritative reference for Hydrophis. For comprehensive information, please refer to the full website.