Customizable AI powered smart water testing kit
Real time monitoring
Reporting data
Highlighting variances
AI prediction of data
Recommending corrective action
Signals for implementation o f preemptive action plan
Drinking water, Pools, Agriculture, Pharmaceuticals, Sewage plants, Large Aquariums, lakes, ponds, rivers, nuclear waste, hazardous materials,
Drastic reduction in wastage of power, water, labor, money, and time with 100% reliability
Objective : Ensure optimal water quality in pools, spas, and recreational water facilities.
Impact : Automated monitoring and maintenance reduce labor costs, improve water safety for guests, and enhance operational efficiency.
Objective : Maintain high-quality water for use in food processing, beverage production, and cleaning processes.
Impact : Ensures compliance with stringent hygiene standards, reduces downtime due to contamination risks, and optimizes water usage to reduce operational costs
Objective : Integrate SHL into smart city infrastructure for continuous environmental monitoring, including air, water, and soil quality.
Impact : Provides local governments with real-time data for managing public utilities and responding quickly to environmental concerns, optimizing resources for sustainable urban development.
Objective : Automate the monitoring and treatment processes in wastewater plants.
Impact : Improves efficiency, reduces manual labor, and ensures compliance with environmental regulations. Real-time adjustments optimize water reclamation, reducing operational costs.
Objective : Ensure high-quality desalination processes for regions with limited access to freshwater.
Impact : AI-driven monitoring and optimization improve the efficiency and reliability of desalination, helping address global water scarcity challenges.
Objective : Monitor and control water and environmental conditions in mining operations.
Impact : SHL ensures that water used in extraction processes meets safety standards, while reducing environmental impact and ensuring compliance with regulatory requirements.
Objective : Optimize cooling systems through efficient water management in data centers, which are highly dependent on cooling infrastructure.
Impact : AI-driven water management reduces downtime, energy consumption, and operational costs while ensuring the stability of critical infrastructure.
AI Capability : HL’s AI can analyze trends in water quality and usage patterns to predict potential contamination issues (e.g., spikes in harmful chemicals or pathogens). It can recommend preventive actions, such as adjusting treatment schedules, reducing manual interventions, and optimizing resource use.
Impact : Proactive maintenance based on AI predictions reduces the likelihood of public health risks and infrastructure failures, optimizing operational efficiency.
AI Capability : AI-powered moisture analysis helps farmers make real-time decisions about irrigation, factoring in weather forecasts and soil conditions. SHL can adjust irrigation schedules to avoid overwatering, detect inefficiencies like leaks, and suggest system maintenance when needed.
Impact : This reduces water consumption, maximizes crop yield, and lowers operational costs, while requiring minimal human intervention.
AI Capability : SHL can detect anomalies such as increased pollution levels in natural water bodies, and offer actionable insights on whether to increase filtration, adjust waste discharge levels, or issue environmental alerts to local authorities.
Impact : Early detection of pollutants ensures quicker responses, preventing long-term damage and reducing the need for extensive cleanup efforts.
AI Capability : SHL continuously monitors cooling towers and other water-based industrial systems for signs of inefficiency, such as heat buildup or unexpected chemical imbalances. It can recommend optimized maintenance schedules or system modifications based on historical data.
Impact : Reduces downtime, minimizes the risk of equipment failure, and saves on energy and water usage, leading to cost savings and operational efficiency.
AI Capability : n hospitals, SHL can monitor sterilization water systems and predict potential disruptions, such as filter clogging or bacterial growth. It offers real-time solutions by adjusting water treatment processes or alerting staff to perform minimal maintenance.
Impact : Ensures patient safety with minimal manual intervention, while maintaining water quality for critical healthcare processes, such as dialysis.
AI Capability : SHL analyzes water quality trends in public aquariums or aquaculture systems and offers corrective actions if AI detects unfavorable conditions for aquatic life (e.g., imbalance in pH, oxygen levels, or contaminants). AI also predicts when filters and equipment need servicing.
Impact : Reduces manual water testing and prevents loss of aquatic life due to delayed maintenance or undetected contamination.
AI Capability : SHL can analyze water usage patterns and predict future requirements in military operations. AI-driven insights detect leaks, equipment wear, or water contamination, and can automatically adjust treatment systems for remote, high-risk environments.
Impact : Ensures constant availability of safe drinking water with reduced human intervention, enhancing operational readiness and reducing logistical challenges.
AI Capability : In challenging environments like disaster zones or mining sites, SHL monitors multiple environmental factors (water, air, or hazardous materials). AI analyzes historical and real-time data to recommend operational adjustments or send alerts about safety risks.
Impact : This reduces the need for human presence in dangerous areas and provides actionable insights that can prevent accidents or environmental damage.
AI Capability : SHL can proactively monitor pool and spa water quality, adjusting chemical balances automatically based on guest usage patterns, preventing manual errors, and providing maintenance alerts.
Impact : Ensures guest safety and reduces labor, leading to higher operational efficiency and lower maintenance costs.
AI Capability : SHL analyzes water purity levels used in food and beverage production, offering insights to adjust filtration systems or alerting for potential contamination risks that could lead to production halts.
Impact : Ensures product safety, reduces downtime, and optimizes water usage in critical manufacturing processes.
AI Capability : SHL can manage multiple water and environmental monitoring points in smart cities, providing real-time insights to city administrators about potential system inefficiencies, predicting future issues, and optimizing resource usage across the city.
Impact : Helps prevent water shortages, system overloads, and environmental hazards with predictive insights, reducing manual intervention and enabling smarter city management.
AI Capability : SHL monitors and analyzes waste levels, chemical balances, and operational efficiency, providing insights to adjust treatment cycles and predict when system upgrades or maintenance are necessary.
Impact : Reduces the risk of system overloads and ensures environmental compliance, while cutting operational costs.
AI Capability : SHL analyzes the cooling systems in data centers and provides insights to predict potential system failures, adjust cooling protocols, and optimize energy and water usage.
Impact : Minimizes downtime and enhances operational reliability with reduced manual intervention, ensuring continuous uptime for critical IT infrastructure.
