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B&W installed DRB-4Z® low NOx burners and overfire air, a selective catalytic reduction (SCR) NOx removal system, a dry flue gas desulfurization (FGD) system, a pulse jet fabric filter particulate collector and a powdered activated carbon injection system for mercury removal.

An explosion during a maintenance outage on February 17, 1999, destroyed the original Hawthorn Unit 5 boiler. In August 1999, B&W was released to design, supply, erect and commission a complete replacement boiler on an accelerated schedule. The new boiler began generating electricity in June 2001, only 22 months from project commencement.

B&W was selected to design a Vølund® waste-to-energy (WtE) combustion system and boiler for Shenzhen Energy Environmental Engineering Co. The 5,600 tons per day plant is among the world’s largest and was completed in 2020.

Copenhagen’s state-of-the-art Amager Bakke sets new standards for environmental performance, energy efficiency and waste treatment capacity.

Babcock & Wilcox Renewable (B&W) designed, manufactured and commissioned two biomass boilers for the Skærbækværket power plant in Denmark. The project allows the combined heating and power plant to supply approximately 60,000 households with clean and reliable district heating and electricity while reducing carbon emissions.

Multifuel-Fired CHP Plant Case Study

Måbjergværket is the first CHP plant in Denmark to use a fuel combination consisting of waste, wood chips, straw and natural gas. Måbjergværket supplies the approx. 55.000 inhabitants of the cities of Struer and Holstebro with direct heating.

New combined heat- and power-producing WtE line designed for burning 10 tonnes of waste per hour increases energy efficiency from 70% to 99%.

Babcock & Wilcox Vølund’s license partner Grantop (Guangzhou Environment Protection Investment Co. Ltd.) has completed the Likeng II waste-to-energy plant in Guangzhou, China. The plant is one of the largest Chinese waste-to-energy plants and it is specifically designed for Chinese waste. This includes the waste characteristics with high moisture and low calorific value.

Ranking as the cleanest, most efficient plant of its kind in the world, this engineered, designed, procured and constructed WtE facility reduces landfill volume by 90%.

The plant processes local residual household, commercial and industrial waste. It generates 7.25 MW of green energy, contributing to Peterborough Council’s Blue Sky project to provide sustainable energy in a smart city environment.