Institutional-Grade Climate Infrastructure

This platform is structured as long-duration climate infrastructure designed for public alignment, technical robustness, and disciplined capital participation.

It is engineered to:

• Meet 100-year flood resilience standards

• Enable basin-level deployment logic

• Align with institutional capital frameworks

• Support structured public-private collaboration

The project is positioned not as a speculative development, but as a phased infrastructure system designed for validation, certification, and progressive activation.

The Challenge

Flood Risk, Climate Volatility, and Underutilized River Corridors

The Yom River Basin faces recurring flood cycles, increasing climate variability, and underleveraged riverfront land.

Traditional flood control systems focus solely on protection — often shifting hydraulic risk downstream or across the river.

What is missing is an integrated system that delivers:

• Hydraulic safety
• Social fairness across both riverbanks
• Economic activation
• Long-term energy resilience

Our objective is not simply to defend against water — but to organize it.

The Platform Solution

A Modular Twin-Bank Infrastructure Network

The solution is a symmetrically engineered twin-bank river dike system designed to maintain hydraulic balance and community equity.

Each standard module spans 10 kilometers.

Construction and activation occur in phased 1-kilometer segments, enabling early deployment of solar, storage, and tourism layers while maintaining full-module economies of scale.

The platform integrates six coordinated infrastructure layers:

1. Primary flood protection (Twin-Bank River Dike)

2. Water retention and buffer zones

3. Solar energy corridors with BESS

4. On-crest tourism and public realm

5. Twin-bank canal dike systems

6. Green power offtaker zones

Together, these layers form a distributed energy and resilience network.

The Infrastructure Layers

Infrastructure That Performs in Layers

1. Twin-Bank River Dikes (Primary Layer)

Height: 5 meters
Base width: 40 meters
Crest width: 10 meters
Design life: 100 years

This establishes structural flood containment and cross-river hydraulic balance.

2. Water Retention Zones

Strategically located buffer reservoirs behind the dike:

• Reduce peak flood pressure
• Stabilize hydraulic forces
• Improve groundwater recharge
• Enhance drought resilience

Water is managed, not merely resisted.

3. Solar Corridors with Integrated BESS

Flood-protected land behind the dike supports:

• 5–6 MWp per 1 km segment
• Mandatory Battery Energy Storage Systems
• Modular scaling to 50–60 MW per 10 km module
• Digital aggregation readiness

Each segment functions as a standardized energy node — designed for corridor-based Virtual Power Plant integration.

4. On-Crest Tourism & Public Realm

The 10-meter crest is activated as a continuous linear destination.

Features include:

• 4-meter green crest zone
• Dedicated cycling and pedestrian lanes
• Lightweight hospitality nodes every 100 meters
• Viewing platforms and rest areas

These structures are engineered to remain structurally independent from flood protection systems.

Infrastructure becomes public space.
Public space becomes economic value.

5. Twin-Bank Canal Dike System

Where canals intersect the river, standardized 40-meter canal interfaces regulate seasonal water transfer.

Multi-bay gate systems allow:

• Continuous dry-season irrigation
• Controlled rainy-season flow
• Canal bank protection
• Agricultural water stability

This secondary layer ensures flood control does not displace risk into farmland.

6. Green Power Offtaker Zones

Adjacent to each solar corridor lies a protected industrial strip:

• 80 meters × 980 meters per segment
• Subdividable into SME industrial plots
• Direct renewable energy integration
• Floodwall secondary protection

These zones attract agro-processing, electrified industry, and export-oriented green manufacturing.

On-Crest Tourism & Public Realm

A Linear Economy on Elevated Infrastructure

Every 100 meters, lightweight hospitality nodes activate the river crest.

Cafés, viewing decks, small lodges, and rest stops create recurring revenue while enhancing public acceptance.

This approach:

• Generates continuous tourism income
• Strengthens social legitimacy
• Converts infrastructure into destination

The river corridor becomes a place — not merely a barrier.

Economics & Value Logic

Multiple Revenue Streams, One Integrated Asset

The platform generates layered economics:

• Solar energy (20–25 year PPA horizon)
• Battery-driven flexibility revenue
• Tourism and hospitality cash flow
• Industrial land lease income
• Reduced flood damage exposure

Flood protection is the foundation.
Energy and economic activation are the returns.

Investment Snapshot

Designed for Phased Capital Deployment and Scale

• Standard 10 km modules
• 1 km phased activation
• 50–60 MW solar capacity per module
• Expandable corridor-wide aggregation

Suitable for:

• Strategic climate venture capital
• Infrastructure funds
• Energy transition investors
• Resilience-focused capital

Further technical and financial materials are available via Data Room access under NDA.

Mission

We design and deliver integrated river-based infrastructure platforms that simultaneously:

• Protect both riverbanks fairly and symmetrically
• Unlock de-risked land for renewable energy and green industry
• Activate public space through lightweight, human-scale design
• Enable modular, basin-level scalability

We build infrastructure that performs technically, economically, and socially — at the same time.

Our Design Principles

1. Safety First

• Flood protection and hydraulic integrity are non-negotiable.

2. Infrastructure as a Platform

• Every structural element enables layered economic use.

3. Fairness Across the River

• Twin-bank symmetry ensures no community bears disproportionate risk.

4. Light Touch, Long Life

• Hospitality and tourism structures remain lightweight and reversible.

5. Built for Digital Aggregation

• Standardized energy nodes enable future corridor-based VPP integration.

What This Means in Practice

• A river dike is not a barrier — it is a corridor.

• A crest is not a service path — it is a destination.

• Flood protection is not the outcome — it is the enabler.

• This is infrastructure designed for the climate era.

Invitation for Strategic Dialogue

We welcome exploratory dialogue with aligned institutions, infrastructure partners, and long-duration capital participants.

This platform is structured for phased collaboration and basin-level scaling.

Engagement begins with structured discussion — not capital solicitation.