Biomass Material & Energy Recovery Solutions
Biomass is one of the most abundant renewable resources today, offering immense potential for clean energy and sustainable materials. Green Environmental Engineering (GEE) designs and constructs advanced biomass conversion facilities, utilizing thermal and biological processes to unleash the full value of organic waste.
Whether your goal is producing renewable electricity, high-value bio-products, or achieving negative emissions through Bioenergy with Carbon Capture and Storage (BECCS), GEE provides customized turnkey solutions backed by deep engineering expertise and regulatory compliance.
Biomass Conversion Technologies
We select the most efficient technology based on your feedstock type and desired output. Our core processes include:
| Process | Carbonization | Pyrolysis | Torrefaction | Gasification | Direct Combustion | Anaerobic Digestion |
| Temperature Range | 300 – 500 °C | 400 – 800 °C | 200 – 300 °C | 800 – 1200 °C | 800 – 950 °C | 35 – 70 °C |
| Oxygen Availability | Partially Anaerobic | Anaerobic | Anaerobic | Partially Anaerobic | Aerobic | Anaerobic |
| Principal Products | Biochar | Bio-Oil, Biochar, Syngas | Biochar, Torrefied Biomass | Syngas | Ash | Biogas, Digestate |
| Applications | Soil Remediation, Adsorbent | Biofuel Production, Chemicals | Co-Firing, Bioenergy | Electricity, Heat, Chemicals | Electricity, Heat | Electricity, Heat, Bio-CNG, Fertilizer |
| Key Applications | Converts biomass into Biochar for soil remediation, carbon sequestration, and water treatment adsorbents. | Anaerobic decomposition producing Bio-oil (liquid fuel), Syngas (heat/power), and high-porosity Biochar. | Removes moisture and volatiles to create “Bio-coal” with high energy density and better grindability for power plant co-firing. | Converts waste into Syngas ($CO, H_2, CH_4$), which can be upgraded to Methanol, Hydrogen, or Synthetic Natural Gas (SNG). | The most proven method for large-scale power generation, burning biomass in specialized boilers to produce high-pressure steam. | A biological process for wet waste (POME, food waste) that produces Biogas (Bio-CNG) and organic Digestate fertilizer. |
Technical Comparison: Malaysian Biomass Feedstocks
To help you select the right conversion technology, the table below compares the energy potential of common local feedstocks.
Biomass Energy Yield & Property Guide
| Feedstock Type | Source Industry | Moisture Content (%) | Energy Yield (HHV) (MJ/kg) | Best Conversion Method |
| Palm Kernel Shell (PKS) | Palm Oil | 10% – 20% | 18.0 – 20.1 | Gasification / Direct Combustion |
| Mesocarp Fiber | Palm Oil | 35% – 45% | 17.5 – 19.0 | Pyrolysis / Direct Combustion |
| Empty Fruit Bunch (EFB) | Palm Oil | 55% – 65% | 16.0 – 18.5 | Gasification (after drying) |
| Rice Husk | Paddy / Agriculture | 10% – 12% | 14.0 – 16.0 | Direct Combustion / Carbonization |
| Wood Chips/Residues | Forestry / Timber | 20% – 50% | 17.0 – 19.5 | Torrefaction / Pyrolysis |
| POME (Effluent) | Palm Oil | >90% | N/A (Biogas focus) | Anaerobic Digestion |
GEE Optimization Note: High-moisture feedstocks like EFB are pre-treated using GEE’s drying and pelletizing systems to significantly increase their Net Heating Value before conversion.
Special Focus: Palm Oil Waste & BECCS
Turn Waste into Wealth: Achieve Carbon-Negative Energy
Malaysia’s palm oil industry produces millions of tons of residues (EFB, fibers, and shells) annually. GEE provides an innovative Bioenergy with Carbon Capture and Storage (BECCS) solution to transform these residues into profit.
- Carbon-Negative Impact: Remove $CO_2$ from the atmosphere while generating clean power.
- Carbon Credit Revenue: Monetize your emissions removal through verified green financing.
- ESG Leadership: Exceed national and international sustainability regulations.
- Modular Design: Scalable BECCS systems that integrate seamlessly into existing mills.
Next Biomass Power Generation System - GEE COMPACT MODULAR GASIFIER (CMG)
A fully integrated containerized biomass gasification system designed to convert agricultural and forestry waste into clean syngas, renewable electricity, and valuable biochar, supporting circular economy and ESG goals.
- Containerized
- Plug-and-Play
- High-Efficiency Renewable Energy Solution
System Highlights
♻️ Waste Valorization
🌿 Feedstock Flexibility Processing:
- Oil palm waste
- Woodchips
- Agricultural waste
🛡️ Built-in Safety Systems
⚙️ Smart Automation & Control
📈 Strong Economic Performance
💨 PureFlux™ Syngas Cleaning System
- Recycles tar and biochar
- Removes particulate matter from syngas
- Ensures engine-grade gas quality
System Specifications
- Biomass input up to 1 TPH
- Power generation up to 500 kWh
- Payback period <2 years
Why This System?
- Turns waste into green energy without CO2 emission
- Reduces fossil fuel dependency
- Compact modular container design for easy installation
- Proven industrial-grade safety design
GEE Turnkey Expertise
We provide a complete end-to-end service package to ensure project success:
- Feasibility & Resource Assessment: Analysis of biomass availability, proximity, and energy yield calculations.
- Engineering Design: Custom process selection (Pyrolysis, Gasification, etc.) based on your specific output goals.
- Fabrication & Supply: Manufacturing to strict international engineering standards.
- Installation & Commissioning: Rapid, end-to-end integration into your industrial operations.
- After-Sales Support: Operator training, process optimization, and warranted spare parts supply.
Ready to unlock the energy in your biomass?
Partner with GEE to turn industrial waste into high-value renewable resources.