Cirque Energy to develop biomass gasification project in Texas
Cirque Energy Inc. announced the signing of a development agreement for a project to install a 2.5 MW biomass gasification power plant to be known as the Midland Biomass Energy Station in Midland, Texas. The project will be developed in conjunction with ReCom Operating Partners, a Midland urban wood waste recovery and recycling operation. Cirque Energy will install, operate and maintain the plant, which is expected to be operational by the end of the first quarter of 2015. The MBES will sell the renewable electricity generated by the project through the deregulated Texas utility market under a multi-year power purchase agreement.
Cirque Energy is working in partnership with Northrop Grumman Corporation to bring to market a deployable gasification unit (DGU) that can use solid waste to provide fuel or supplement traditional fuels used to generate combined-heat-and-power (CHP). For the MBES project, four DGUs will work in parallel to process the urban wood waste to generate clean, renewable electrical energy.
“The Midland Texas project will allow us to rapidly bring to market our DGU technology. We are excited about the opportunity to place four units into service which will quickly allow us to gain commercial operating hours on the systems,” said Richard L. Fosgitt, vice president of engineering and technology at Cirque Energy.
Small-scale gasifiers using pure biomass (i.e. ground wood, wood pellets, etc.) are not new or unique. The DGU however will be able to use more difficult fuels which could include combinations of typical garbage/MSW, waste wood, dunnage, cardboard, plastics, mixed paper, food wastes, etc.
Traditionally, some waste fuels have been difficult to burn because of the release of contaminates into the air. Much of the waste currently going to landfills are carbon based and have a high heat content that when treated or processed properly can be converted to energy. Quite simply, the DGU has the potential to revolutionize the waste industry by reducing the volume of material being shipped to landfills, and, at the same time, producing a clean, reliable form of renewable energy.
By focusing on these fuels, Cirque Energy's gasifier and gas cleanup technology has been designed to generate a clean syngas that can be co-fired in conventional diesel or natural gas internal combustion CHP engines. With sufficient supply of waste material, a commercial or industrial facility can expect to replace up to 70 percent of the fossil fuel consumption to power CHP engines. This effectively provides 70 percent of their CHP energy for free, while also eliminating a significant portion of their waste disposal expenses.
“Our new relationship with ReCom Operating Partners is intended to be our first of many potential joint entries into the Texas energy market. The deregulated Texas electric utility market allows pure customer choice for their source of energy. Using our DGU technology, we can utilize waste and opportunity fuels that would otherwise end up in a landfill to provide clean, low-cost renewable energy,” said Joseph DuRant, president and CEO of Cirque Energy.
The Midland and Odessa, Texas, area has transformed itself into the nation’s fastest growing metro area, ranking at or near the top of the list of every major measure of recent economic and population growth. This is largely due to the rebirth of the Permian Basin oil fields due to new oil and gas recovery technology. The market has an abundance of available urban wood waste which is currently going to landfills. This waste stream includes materials from urban forestry, landscaping, industrial dunnage, and construction and demolition debris.
The potential market for small scale gasification coupled with traditional CHP engines is enormous. End users for portable systems could include military, third-world, and disaster assistance. In the United States, end users such as hospitals, universities, industry, and others would see obvious benefits from renewable baseload (continuous output or 24/7 capable) energy systems.