Sustainable Fuel

Sulomas Group leverages cutting-edge pyrolysis technology to transform waste management and energy production in Malaysia.

Our advanced pyrolysis process thermally decomposes organic materials in the absence of oxygen, operating at high temperatures to convert waste, including plastics and biomass, into valuable products such as bio-oil, syngas, and char. This environmentally friendly technology is crucial for recycling waste into usable energy and chemicals, significantly reducing landfill dependency and curbing greenhouse gas emissions.

Our pyrolysis initiative underscores the Group’s commitment to environmental sustainability and its active role in the circular economy, solidifying our position as a leader in green technology and sustainable development.

Materials Recovery Facility

Innovating Green: Sulomas Group’s Pioneering Internal Heating Pyrolysis

Sulomas Group leads the way in pyrolysis technology with its groundbreaking internal heating approach, distinguishing itself as an industry frontrunner.  Our innovative method ensures a more efficient and consistent thermal decomposition process, resulting in higher-quality end products such as bio-oil, syngas, and char. 

By enhancing energy efficiency and offering superior process control, the internal heating technique produces cleaner energy and valuable materials from waste. Our commitment to this advanced pyrolysis technology underscores the Group’s dedication to environmental sustainability and positions us as a key advocate of the circular economy, propelling the green technology sector into the future.

Features

No Drainage

No Drainage

Auto Door

Auto Door

Eco Saving System

Eco Saving System

Safety System

Safety System

User Friendly

User Friendly

High Temp Working Environment

High Temp Working Environment

Water Proof Design

Water Proof Design

Fully Computerised

Fully Computerised

Auto Bin Lifter

Auto Bin Lifter

Auto Lock

Auto Lock

Technology Restrictions

Technology Restrictions
  • Mixing of glass and paper will reduce the output quality of both materials
  • Mechanical technologies required for separation of materials by grade are capital intensive
  • Hand sorting can be used to varying degrees within the process
  • Requires diligent separation of materials at source and low contamination