Our hardwood charcoal can be relied upon to provide exceptional heat, they burn for longer periods and are sourced in an environmentally friendly way. As a result, we have become a trusted and reliable name in the international market when it comes to biofuel exportation.

Palm Kernel Shells or PKS as it is sometimes called, are the shells that are obtained during the processing of palm nuts. This product which was once considered as a waste from the production process is now considered as a very useful and profitable by-product of the palm oil extraction process. This abundant and renewable energy source now offers a sustainable alternative to traditional fossil fuels.

By harnessing the potential of renewable biomass, our briquettes provide a clean and efficient alternative to traditional fuels. Experience the benefits of eco-friendly energy with our high-performance palm kernel shell briquettes.

Jatropha seeds are a plant-based resource that has gained significant attention as a potential source of biodiesel. This plant, native to tropical regions, produces seeds that contain high levels of oil, making them suitable for biofuel production.

KEY FEATURES:

Used cooking oil (UCO) is a byproduct of food preparation. While it's often discarded as waste, UCO can be repurposed for various applications, making it a valuable resource.

KEY FEATURES:

The Container Anaerobic Treatment System (CATS) with a capacity of 18m³ is designed for efficient treatment of organic waste, particularly suitable for restaurants and food processing facilities. This system utilizes anaerobic digestion technology to convert organic materials into biogas, which can be used as renewable energy.

Key Features

Components: The system comprises several integral components:

Food Waste Disposer: Facilitates the breakdown of food waste.

Feeding Pump: Ensures consistent feeding of waste into the reactor.

Anaerobic Reactors: Two reactors are employed to optimize the digestion process.

Heat Pump: Maintains the optimal temperature for microbial activity.

Control Console: Centralized control for monitoring and managing the system.

Biogas Purification Unit: Cleans the biogas produced for safe use.

Biogas Storage Bag: Stores produced biogas for later utilization.

Biogas Stove: Allows direct use of biogas for cooking or heating.

Construction: The anaerobic reactor is built from double-layer stainless steel plates with foam insulation, ensuring durability and thermal efficiency. It features a temperature control system, pH control, and mixing devices to enhance digestion efficiency.

Anaerobic treatment systems, such as the 18m³ Anaerobic Treatment System, are advanced solutions designed for the effective treatment of industrial wastewater. These systems utilize anaerobic bacteria to break down organic pollutants in an oxygen-free environment, converting them into biogas, primarily composed of methane and carbon dioxide. Below is a detailed description of the system's features, benefits, and operational principles.

System Overview

Capacity: 18m³, suitable for various industrial applications.

Technology: Utilizes anaerobic digestion, a biological process that occurs without oxygen, to treat wastewater efficiently.

Components: The system typically includes a bioreactor where wastewater is treated using specialized anaerobic microorganisms.

Operational Principles

Wastewater Inflow: Wastewater enters the reactor where it mixes with anaerobic sludge containing active microorganisms.

Biological Degradation: Anaerobes digest the organic matter, converting it into simpler compounds and producing biogas as a byproduct.

Biogas Collection: The generated biogas is collected and can be used for energy production, such as heating or electricity generation.

Effluent Treatment: The treated effluent exits the system with significantly reduced Chemical Oxygen Demand (COD) and Biological Oxygen Demand (BOD), making it suitable for discharge or further treatment.

Advantages

Energy Efficiency: Anaerobic treatment systems consume less energy compared to aerobic systems due to the absence of aeration needs13.

Low Sludge Production: These systems produce minimal sludge, reducing disposal costs and environmental impact59.

Biogas Utilization: The biogas generated can be harnessed for renewable energy, contributing to sustainability goals29.

Compact Design: The smaller footprint of anaerobic reactors allows for easier integration into existing facilities17.