Plastic-to-Fuel Benefits

  • Utilizes locally generated plastic waste that normally ends up in landfills or as litter in the marine environment

  • Produces high demand transportation fuels and industrial waxes

  • Uses a highly efficient process that reduces greenhouse gas emissions, water usage and fossil fuel intensity when compared to traditional refining methods of fuels production

Waste to Energy


Waste to Energy Benefits

  • Utilizes various renewable source inputs including food, dairy, and poultry waste

  • Produces renewable natural gas and/or electricity

  • Cost effective due to various revenue streams including energy sales and agricultural byproduct sales such as fertilizer

Combined Heat and Power

Combined Heat and Power (CHP) Benefits

  • Among the most efficient and cost effective

  • Eliminates wasteful energy production and minimizes harmful emissions

  • Reduces operational costs

BME is able to deploy a number of on-site power and thermal solutions to address the unique energy needs of various customer types including:

Combined Cooling Heat and Power (CHHP) - Power heating and cooling with turbines, engines, heat exchangers and chillers
Boilers - Steam, heating and cooling with commercial or industrial boilers
Turboexpanders Organic Rankine Cycle (ORC) - Use of waste heat with organic rankine, cycle turbines and heat exchangers
Fuel Cells - Power only with fuel cells. In some case, fuel cells can also produce useful waste heat