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Off grid solar PV System, Battery Storage

OKC Process Lab 

This 2,560-square-foot off-grid commercial solar installation in California is a prime example of renewable energy solutions for factories and businesses looking for self-sufficient solar energy systems. Constructed from eight 40-foot container boxes, the facility is designed for versatility and sustainability, featuring a 720-square-foot medical lab, a full kitchen, showers, office space, a production area, and a shop.

Powered by a CEC Title 24-compliant solar system, this facility runs on a 35 kW solar setup with a 30 kW battery pack for energy storage, ensuring off-grid solar solutions that maintain uninterrupted power for commercial operations. Businesses seeking solar thermal systems for commercial applications can find inspiration in this cutting-edge, energy-efficient project.

This installation demonstrates how solar energy storage systems can be integrated into commercial and industrial projects. For companies in need of solar energy contractors specializing in off-grid solutions, this project highlights the effectiveness of independent, grid-free power solutions.

Off Grid Irrigation, Off grid solar PV System, Battery Storage

The largest Refugee camp in Africa,

located in Tanzania near the Burundi border and housing over 290,000 refugees from Burundi and Rwanda, we implemented an off-grid solar power system to enhance sustainability and efficiency. Our AgroTEK system automates the pumping of water from a local river into a storage tank, ensuring daily water quotas are met and maintaining optimal water levels. It monitors soil moisture at plant root levels, controls irrigation schedules, flow rates, irrigation line pressure, and filter status. Additionally, the system oversees solar photovoltaic (PV) energy production, battery storage status, energy consumption, and cool storage temperatures. Operable automatically or manually from any smart device, AgroTEK provides 24/7 updates via a web interface and email/text message alerts.

This off-grid solar energy solution exemplifies the benefits of renewable energy in remote settings, promoting energy independence and environmental sustainability. By leveraging solar power, the system reduces reliance on non-renewable resources, aligning with global clean energy initiatives. The integration of solar PV technology and battery storage ensures a reliable energy supply, even in off-grid locations. This project underscores our commitment to delivering innovative solar solutions that address critical needs in challenging environments.

Off Grid Irrigation, Off grid solar PV System, Battery Storage

Cambodian Refugee Resettled in Sacramento 

In an off-grid solar-powered irrigation system, Maktinta provides advanced control and monitoring over six agricultural fields, ensuring efficient water and energy management. The system automates pump speed control, regulates irrigation line pressure and flow rates, and maintains optimal soil moisture at the plant root level.

Maktinta’s smart irrigation technology manages irrigation schedules, filter performance, and solar PV energy production, while continuously monitoring battery storage capacity, energy consumption, and cool storage temperature. Designed for remote solar farming, this solar-powered precision irrigation system operates automatically or manually from any smart device, offering real-time alerts via a web interface, email, or text messaging.

This sustainable agricultural solution integrates solar-powered water pumping, off-grid battery storage, and remote energy monitoring, ensuring reliable operation in remote locations. Maktinta delivers high-efficiency renewable energy solutions that optimize water and power management for off-grid farming and agritech applications.

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Off-Grid Proof of Concept Data Center

Maktinta designed and built a fully off-grid data center, powered by a 1 MW hydrogen fuel cell and backed by a 3.5 MW Tesla commercial battery system. Operating completely independent from the grid, this sustainable data center ensures uninterrupted, high-efficiency performance with zero reliance on traditional power infrastructure.

A key innovation in this project is an advanced cooling system that reduces the data center’s Power Usage Effectiveness (PUE) from 1.5 to 1.09, significantly lowering energy consumption and improving operational efficiency. This cutting-edge energy-efficient cooling solution optimizes heat management, minimizing power waste and enhancing server reliability.

The entire system is controlled by a custom-designed management platform featuring 300 inputs and outputs, enabling real-time monitoring, automation, and remote control. This intelligent control system ensures seamless integration between the hydrogen fuel cell, battery backup, and cooling infrastructure, delivering scalable, high-performance computing in a sustainable, off-grid environment.

This project highlights Maktinta’s expertise in off-grid renewable energy solutions, hydrogen-powered data centers, and next-generation cooling technology, setting a new standard for energy-efficient, sustainable computing infrastructure.

© 2024 by Maktinta Energy

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