Sustainable Energy

Waste to Energy (WTE) technology is a cornerstone of modern sustainable development, offering a strategic solution to the escalating waste management challenge.

By converting non-recyclable waste into various forms of energy, WTE not only reduces the volume of waste bound for landfills but also curbs the emission of greenhouse gases, a major driver of global warming. The energy generated through WTE processes—whether as electricity, heat, or fuel—represents a renewable resource that can greatly replace fossil fuels, thereby fostering the circular economy where waste is transformed into a valuable asset rather than a burden.

Our eco-friendly approach to waste management conserves natural resources and lays the foundation for a cleaner, more sustainable future. Consequently, WTE technologies are essential to achieving environmental sustainability, enhancing energy security, and stimulating economic growth within a circular economy framework.

Materials Recovery Facility

Energising Sustainability: Sulomas Group’s Strategic Leadership in WTE Initiatives

Sulomas Group’s strategic approach to waste-to-energy (WTE) projects is firmly anchored in sustainable development principles. By aligning our initiatives with the United Nations’ Sustainable Development Goals—particularly those related to clean energy, responsible consumption, and climate action—we ensure that our WTE projects contribute meaningfully to global sustainability efforts. 

We emphasise innovation and efficiency in our technology, foster community engagement to ensure project success and prioritise environmental protection through strict compliance with regulations. Economic growth is also a central focus, with WTE projects poised to generate more jobs and stimulate new supporting industries. 

As a key aspect, we invest in research and development to enhance WTE outcomes, making it an increasingly viable and attractive option for waste management. This holistic approach positions the Sulomas Group as a leader in advancing WTE initiatives that not only benefit Malaysia but also support the global sustainable development agenda.

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