City Services

Major Infrastructure Projects

Coming Soon City Services - Starting 2027

Wastewater Treatment Plant

Lofa Wastewater Treatment Plant

demonstrates how advanced water treatment technology can support cleaner communities, public health, and long-term sustainable development in Liberia. The facility is carefully planned with multiple treatment stages that transform raw wastewater into clean, reusable water through screening, biological treatment, clarification, filtration, and UV disinfection systems.

The image shows a large-scale treatment campus with primary and secondary clarifiers, aeration basins, sludge digestion systems, biosolid processing areas, clean water storage tanks, and centralized SCADA monitoring and control facilities. Solar panels and energy-efficient systems are integrated throughout the site, highlighting the plant’s focus on sustainability, operational efficiency, and reduced environmental impact.

The treatment process is designed to protect local waterways by reducing pollution and safely treating wastewater before discharge or reuse. In addition to producing clean water, the facility also recovers useful biosolids for agricultural and landscaping applications. Overall, the project represents a future-focused utility development intended to improve sanitation, environmental protection, water reuse, and community health while supporting Liberia’s growing infrastructure needs.

Lofa Recycling Tire Centre

Modern waste-to-energy and recycling facility designed to transform used tires and waste materials into valuable resources and clean energy products. The facility uses advanced pyrolysis and recycling technology to process tires into hydrogen gas, usable industrial oil, carbon black, and recycled steel and metals. The project is focused on reducing pollution, creating jobs, supporting environmental sustainability, and helping build a cleaner and more energy-independent future for Liberia through modern green infrastructure and resource recovery systems.

Lofa Recycling Centre

Keeping our City Clean

Modern recycling and waste recovery facility planned for Liberia. The center is designed to process paper, plastic, glass, and cardboard while promoting environmental sustainability, cleaner communities, and local economic growth.

The facility features large industrial processing bays with conveyor systems, truck loading areas, storage zones, and organized material handling operations. Separate sections are dedicated to paper, plastic, glass, and cardboard recycling, allowing materials to be sorted, cleaned, processed, baled, and prepared for reuse in manufacturing and new products.

The presentation also highlights the recycling process flow, beginning with collection and sorting, followed by processing, storage, and repurposing. The center is designed to accept a wide range of recyclable materials from homes, businesses, and industries throughout the region.

LOFA SURGERY CENTER & HOSPITAL

Bring in Specialist in all the major Medical fields

Envisioned as a modern 250-bed multispecialty hospital and surgery center designed to provide advanced healthcare services in Liberia or a similar developing region. The central focus of the image is a large, contemporary hospital complex featuring multiple wings, a rooftop helipad, landscaped grounds, organized road access, emergency vehicle circulation, and modern architectural styling that resembles international medical campuses found in the United States, Europe, or the Middle East. The brochure emphasizes the facility’s mission of delivering “Compassionate Care, Advanced Medicine, Better Outcomes,” while showcasing a full spectrum of medical specialties including cardiology, neurosurgery, orthopedics, pediatrics, oncology, radiology, obstetrics and gynecology, ophthalmology, and emergency surgery. Surrounding panels highlight advanced infrastructure such as 10 operating theatres, ICU and critical care units, robotic surgery systems, MRI and CT imaging equipment, telemedicine capability, electronic medical records, laboratory analyzers, and 24/7 power and oxygen systems. The image also includes architectural cutaway drawings, emergency departments, patient recovery rooms, surgical suites, and a team of doctors and nurses, reinforcing the vision of a world-class healthcare institution with strong community impact. Overall, the design communicates a comprehensive healthcare ecosystem focused on emergency care, surgery, diagnostics, patient comfort, medical technology, workforce excellence, sustainability, and long-term regional healthcare development.

WEG Energy Food security for the LOFA Development

Self-Staining Food Production with in the City at multiple location

Presenting a fully integrated green hydrogen-powered agriculture and energy platform designed to support long-term food security, clean energy production, and sustainable industrial growth. The concept combines hydrogen production, dedicated energy distribution, and modular aeroponic greenhouse systems that operate independently from the electrical grid using 2.6 MW hydrogen-powered units. These systems are designed to provide reliable zero-emission 24/7 power while supporting greenhouse operations, cold storage, and post-harvest processing facilities.

The agricultural infrastructure is based on high-density aeroponic greenhouse modules measuring approximately 30 meters by 100 meters. Each greenhouse utilizes vertical growing towers to maximize crop yield while significantly reducing water consumption compared to traditional farming methods. The facilities include integrated utility systems, automated nutrient delivery, climate control, and scalable modular construction, allowing the development to expand efficiently as demand increases.

The proposal also includes a major expansion strategy involving 20 additional self-sustaining vertical greenhouses located across multiple areas as the city develops. Each location is planned to operate with its own independent power system and may either remain fully off-grid or connect to the national electrical grid if desired. The overall objective is to strengthen food security, create large-scale employment opportunities, stimulate the local economy, and establish long-term agricultural resilience. The concept further incorporates community food banks with cold storage facilities to preserve excess produce and provide stable food distribution support for surrounding populations. Overall, the image presents a vision of a modern, energy-independent agricultural ecosystem powered entirely by green hydrogen technology and advanced controlled-environment farming systems.

LOFA Government Complex

All the Government and none Government Service that you will need in Life

Modern government and administrative campus planned for Liberia. The development is designed to centralize key ministries, public agencies, and citizen services into one secure and efficient location focused on transparency, accessibility, and improved public service delivery.

At the center of the complex is the main executive and administrative building, surrounded by facilities for the Ministry of Finance, Ministry of Justice, Foreign Affairs, Internal Affairs, National Assembly, Senate, Auditor General, and a centralized Citizen Service Center. The campus features modern architecture, landscaped green spaces, organized roadways, parking areas, fountains, and solar-ready infrastructure.

The project also includes smart government systems such as digital services, e-government platforms, secure access control, conference and training facilities, and modern public service halls where citizens can access permits, IDs, passports, tax services, and legal documentation in one location.

Overall, the Lofa Government Complex is presented as a future-ready government hub designed to improve efficiency, coordination, sustainability, security, and national development while creating a modern public administration center for Liberia.

Data Center & Communications

Mogular Data Center exsandes as needed

Hydrogen Power Plant

WEG Energy LLC Is a Green Power Company with Engneering and EPCM managment

93 MW Combined-Cycle Hydrogen Power Project, You are viewing WEG Energy’s 93-megawatt combined-cycle hydrogen power project.

Below are our modular hydrogen fuel production units, supplied by our OEM manufacturing partner. These containerized systems produce green hydrogen in real time, designed for scalable, utility-grade deploymentm, To the right is the Siemens SGT-800 hydrogen turbine, configured in a combined-cycle arrangement for high-efficiency power generation and continuous baseload capability.

At Lofa, we will have the ability to create a base-load power supply using the river, which will serve as the heart of the new city.

WEG ENERGY LLC – 2 MW to 2.5 MW Hydrogen Power System
Technical & Commercial Summary

WEG Energy LLC offers a containerized, modular hydrogen-to-power system designed to deliver reliable and scalable electrical power in both microgrid and grid-connected environments. The system operates on a fully integrated process that converts water into hydrogen through electrolysis, stores the hydrogen, and then utilizes fuel cell technology to generate electricity. This end-to-end solution provides a clean, efficient, and flexible energy platform suitable for a wide range of applications.

The system is available in two primary configurations. The preferred option is a fuel cell-based system delivering between 2 MW and 2.5 MW of electrical output at approximately 60% efficiency. Alternatively, a hybrid configuration can be deployed, combining fuel cells with a hydrogen-powered engine backup to enhance redundancy and operational resilience. All components are housed within standard 40-foot containers, which include hydrogen production units, fuel cells, control systems, and integrated cooling infrastructure, allowing for rapid deployment and modular scalability.

Hydrogen production is designed to meet continuous operational demand, with an estimated requirement of approximately 75 kg of hydrogen per hour per megawatt of output. This translates to roughly 150 kg/hour for a 2 MW system and 187.5 kg/hour for a 2.5 MW system.

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WEG Energy integrated renewable power solution

Combining a 300 × 740W solar system (222 kW DC) with supporting infrastructure such as inverters, transformers, grid connection, and supercapacitor energy storage. On the right, a detailed infographic outlines energy production estimates for Suriname, including daily, monthly, and annual output, along with land requirements and system benefits. On the left and center, visual components show EV charging stations, a wind turbine, containerized power units with solar panels, and modular energy storage systems, all interconnected to form a hybrid, scalable energy network. Overall, the image illustrates a complete clean energy ecosystem designed for efficient power generation, storage, and distribution, suitable for residential, commercial, and infrastructure applications

ALJA ONE Charging Stations throughout the city and residential locations.

The new city will run on Hydrogen and Electrical Power

We produce the Hydrogen in real-time with the ability to store and pump to different location of the City as needed.