AKUANIX / INDEX / FACILITY OVERVIEW TANK-04 NOMINAL O₂ 9.2 mg/L RECIRC 99.4%
GLOBAL LEADERSHIP IN RAS TECHNOLOGY

Command deck for land-based fish farming.

A single live operating console for Recirculating Aquaculture Systems — water diagnostics, machine vision and real-time automation, fused into one immersive interface.

FACILITY TELEMETRYLIVE · TANK-04
Dissolved O₂9.2 mg/L
Temperature13.4°C
pH Level7.1
Feed Conversion1.08
Biomass Growth+2.3%/wk
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GLOBAL LEADERSHIP IN RAS TECHNOLOGY

Engineered intelligence for land-based fish farming.

Akuanix is the global leader in land-based fish farming innovation. We deliver the definitive intelligent ecosystem for Recirculating Aquaculture Systems (RAS)—syncing water diagnostics, machine vision, and real-time automation so commercial producers scale with absolute operational certainty.

Total Technology Integration Across the Life Cycle
FACILITY TELEMETRY — TANK 04 (LIVE SIMULATION) LIVE
Dissolved O₂9.2 mg/L
Temperature13.4°C
pH Level7.1
Feed Conversion Ratio1.08
Biomass Growth Dynamics+2.3%/wk
System Effect: Micro-adjustments to water chemistry auto-applied via cloud loops.
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TOTAL PRODUCTION INTERFACE

Every parameter, synchronized.

Akuanix combines distributed IoT tracking with automated facility diagnostics into one comprehensive operations center. Water chemistry loops, automated feed routines, biofilter status updates, and predictive growth graphs map continuously across your multi-tank setup to eliminate guesswork.

The visual matrix below demonstrates our integrated dashboard tracking localized bio-loads and environmental shifts instantly.

ops-console.akuanix.io/facility-global
LIVE GRAPH EFFECT — BIOMASS TRENDS (30 DAYS)+14.2%
TANK FARM HEALTH MATRIX22 / 24 nominal
DISSOLVED O₂ LOOP
9.2
mg/L · BALANCED
FEED CONVERSION INDEX BY UNIT
0%
WATER RECIRCULATED
0/7
AUTONOMOUS MONITORING
0
INTEGRATED TREATMENT STAGES
0ms
CORRECTION LATENCY
THE TOTAL RAS PRODUCT

Global land-based farming innovation, unified.

Akuanix designs and deploys the underlying infrastructure and software intelligence that makes large-scale land-based aquaculture reliable. Our unified environment maps out, manages, and automates core parameters—water quality, biological behaviors, biomass progression, oxygen demands, automated feeding delivery, and filtration loads—to provide a reliable industrial outcome.

By blending deep marine biological science with responsive industrial engineering, we turn high-density water environments into highly predictable, safe production facilities. We don't build standalone parts; we deliver the entire technology framework.

SYSTEM PRINCIPLE

To eliminate environmental uncertainty from land-based fish production through deep architectural integration.

TECHNOLOGY STANDARD

Providing heavy-duty automation loops that keep water variables, stock condition, and energy consumption perfectly balanced.

FACILITY CORE FLOW SCHEMATIC
PRODUCTION TANK (INTEGRATED SENSORS) MECHANICAL FILTRATION (PARTICULATE REMOVAL) BIOLOGICAL FILTER (AMMONIA CONVERSION) PATHOGEN CONTROL LAYER (UV / OZONE) OXYGEN ENRICHMENT & CO₂ STRIPPING AUTOMATED WATER RETURN PUMPING
HOW THE SYSTEM WORKS

A closed-loop water cycle, intelligently orchestrated.

In a Recirculating Aquaculture System, up to 99% of water is continuously cleaned and reused. Akuanix instruments every stage of the loop — turning six mechanical processes into one self-correcting, fully monitored ecosystem.

FISH TANK O₂ · pH · BIOMASS DRUM FILTER SOLIDS REMOVAL BIOFILTER AMMONIA → NITRATE CO₂ DEGASSER CO₂ STRIPPING O₂ OXYGENATION O₂ INJECTION CONE UV / OZONE PATHOGEN CONTROL
Live flow — water recirculates continuously Sensors at every stage report to the Akuanix cloud Reuse rate: >99% Response latency: <250ms
STAGE 01 — CAPTURE

Sense the environment

Distributed probes and subsurface cameras read dissolved oxygen, pH, temperature, CO₂, and fish behavior in real time across every tank.

STAGE 02 — DECIDE

Predict & correct

Machine-learning models compare live telemetry against biological targets and calculate the exact mechanical adjustment required — before drift becomes risk.

STAGE 03 — ACT

Automate the loop

Pumps, oxygen cones, feeders, and filtration valves respond automatically, closing the loop and keeping water chemistry and welfare perfectly stable.

INTEGRATED INNOVATIONS MATRIX

Every technological layer built to scale together.

True world leadership in RAS means avoiding disconnected solutions. Our complete technology suite links physical filtration, feeding apparatus, and computational tracking into a single, cohesive industrial platform.

Real-Time Stock Monitoring

Continuous computer vision modules tracking distribution density and swimming speeds across entire systems.

Predictive Health Diagnostics

Early-stage bio-telemetry analytics detecting anomaly signals days before behavioral drop-offs occur.

Dynamic Feeding Systems

Automated dosing apparatus responding directly to active biomass appetite curves rather than static timelines.

Water Chemistry Automation

Continuous validation loops for dissolved oxygen, carbon dioxide levels, pH values, and nitrogenous states.

Digital Facility Simulation

Real-time stress-testing environments that preview water velocity adjustments before mechanical distribution changes occur.

Proactive Infrastructure Care

Acoustic and pressure monitoring on pumping assemblies to preempt mechanical failure cycles.

Biomass Yield Analytics

Continuous sizing tracking that evaluates operational weights to deliver precise harvest timeline forecasts.

Hydrokinetic Energy Tuning

Regulated circulation schedules matching hydraulic motor outputs to the physical requirements of current growth metrics.

Traceability Generation

Instant environmental ledger building that logs permanent safety histories for high-value biological assets.

Enterprise Operation Centers

Secure, decentralized tracking consoles capable of managing multiple global production sites through a single system map.

SYSTEM SOLUTIONS CATEGORIES

One ecosystem. Three pillars of operational safety.

Our infrastructure functions as a unified whole. Select a core category below to see the integrated technologies and the precise diagnostic effects monitored by the system.

CHEMISTRY STABILITY SUITE

Automated environmental stabilization.

Our system integrates continuous physical instrumentation into deep water distribution arrays, eliminating manual drift sampling and mitigating nitrogen toxicity risks.

Oxygen SaturationCO₂ StrippingpH CorrectionAmmonia DiagnosticsNitrite Safety Levels
Live Chemical Waveform Effect (Simulated Calibration)
BIOLOGICAL TRACKING SYSTEM

Computer vision monitoring of livestock stress.

High-resolution optical arrays measure kinetic spatial distributions and feeding speeds, providing clear stress indicators long before traditional baseline shifts show up.

Spatial Velocity ProfilingBiomass CalculationAppetite TrackingStress Event Identification
Optical Target Acquisition Effect (Simulated Telemetry Matrix)
MECHANICAL INFRASTRUCTURE MANAGEMENT

Feedback loops linking biology to mechanical systems.

Automated telemetry matches variable pumping actions and active hydraulic oxygen injection directly to current biological loading, maintaining balance across all machinery.

Variable CirculationDosing PrecisionBiofilter Flow ControlsEnergy Draw Moderation
Dynamic Mechanical Load Output Allocation
GLOBAL INDUSTRIAL METRICS

Proven benchmarks in land-based technology.

01

Proprietary Core Processing

Algorithms built purely for aquaculture life-support systems rather than generic processing adaptations.

02

Continuous Diagnostics

Real-time analytics checking water volumes, asset behaviors, and filtration circuits uniformly.

03

Resource Optimization

Engineered to lower input waste and resource consumption through balanced systems management.

04

Actionable System Logic

Telemetry structured directly into immediate physical corrections, avoiding raw data backlogs.

05

Multi-Stage Application

Architected for immediate scaling across hatcheries, smolt units, and massive grow-out systems.

06

Biological Validation

System logic designed in partnership with international fish physiological researchers and senior engineers.

SYSTEM IN OPERATION

Operational land-based environments.

A look at active facility deployments integrating our automated water engineering and structural tracking tools.

OPERATIONAL CAPABILITIES

Species profiles and system configurations.

Atlantic Salmon Layouts Steelhead Trout Profiles Industrial Tilapia Blueprints High-Density Yellowtail Setups Hybrid RAS Configurations Ecosystem Hatcheries Marine Research Systems Commercial Seafood Frameworks
INNOVATION COMPONENT MAP

What powers our total system architecture.

Computer Vision Arrays

Subsurface camera modules evaluating structural spacing and distribution without disrupting bio-assets.

Machine Learning Modules

Localized predictive systems running growth analysis, conversion trends, and water safety assessments.

Industrial IoT Backbones

Connecting analytical probes, motorized fluid valves, and air units into one high-speed loop.

Cloud Analytics Suites

Unified enterprise consoles streaming system conditions securely to any operations base.

RESOURCE CONSERVATION

Efficiency and long-term viability, balanced.

Our structural parameters target resource efficiency directly. Minimizing over-feeding, stabilizing hydraulic pumping draw, and refining water recycling loops directly decreases footprint variables as a natural result of stable engineering.

01

Feed Loss Prevention

02

Lower Baseline Power Requirements

03

Optimized Water Recycling Matrices

04

Advanced Livestock Environment Preservation

05

Reduced Operations Discharge Footprint

GLOBAL MARKET TRANSITION

Land-based RAS is the foundation of sustainable protein production.

As demand grows for environmental responsibility and dependable seafood supply, integrated land-based RAS facilities are setting the benchmark for consistent, predictable production. Akuanix delivers the advanced technical infrastructure and precision software that enable producers worldwide to scale operations securely, efficiently, and sustainably.

Martin Erickham - CTO
SYSTEM CONFIGURATION

Evaluate what your production layout can achieve.

Review customized infrastructure setups and data configurations built for your specific water volume requirements—direct, technical system breakdowns with our integration engineers.

SYSTEM INTEGRATION ENGINEERING

Deploy the future of land-based aquaculture.

Headquartered in Norway, partnering with industrial RAS operators worldwide. Reach out to our technical engineering division to map your system goals.

CENTRAL OFFICE Norway
ENGINEERING INQUIRIESinfo@akuanix.com
TELEPHONE COMMUNICATIONS+47 21 61 06 55