Staged Pressurized Oxy-Combustion Shows Promise for Carbon-Negative Biomass Power and Boiler Retrofits
en-GBde-DEes-ESfr-FR

Staged Pressurized Oxy-Combustion Shows Promise for Carbon-Negative Biomass Power and Boiler Retrofits

13/07/2026 HEP Journals

A new study published in Engineering has evaluated the staged, pressurized oxy-combustion (SPOC) process for boiler retrofits using woody biomass to generate carbon-negative power, with assessments covering both standalone power generation and cogeneration systems. First introduced in 2012, SPOC integrates fuel staging and pressurized oxy-combustion to deliver a more compact plant layout, improved energy efficiency, and lower costs for pollutant and greenhouse gas removal relative to conventional carbon capture setups. The modular boiler design supports flexible operation, which supports grid stability amid growing shares of intermittent renewable generation. While initially developed for coal, SPOC is well suited to biomass combustion because it can recover latent heat from the high moisture content in biomass flue gas, boosting performance compared with atmospheric-pressure biomass combustion systems.

Aspen Plus modeling confirms that SPOC outperforms baseline plants equipped with post-combustion capture (PCC) in both power and cogeneration configurations. The SPOC process relies on a series-parallel boiler arrangement that limits flue gas recirculation to less than 30 percent, far below rates used in first-generation atmospheric oxy-combustion, reducing auxiliary power demands. The integrated system includes an air separation unit, staged pressurized boilers, high-temperature heat recovery, a baghouse filter, a direct contact cooler (DCC), and a CO₂ processing unit, with heat recovery from flue gas moisture condensation and compression waste heat integrated into the steam cycle. The DCC simultaneously cools flue gas, condenses water vapor, and removes SO, NO, and HCl in a single pressurized column, cutting capital and operating expenses compared with conventional flue gas treatment systems. Carbon capture efficiency reaches 95 percent or higher, with the CO₂ stream compressed for sequestration at lower energy cost because the gas remains pressurized throughout the process.

Researchers at Washington University in St. Louis have successfully demonstrated 100 percent biomass firing in a 100 kWₜₕ pressurized oxy-combustor following minor adjustments to the dry feeding system. Tests showed stable startup, steady-state operation, and turndown performance with low excess oxygen, high particle burnout, and low NO emissions, with no burner or combustor modifications needed between coal and biomass operation. The study indicates SPOC retrofits can convert existing coal-fired boilers to carbon-negative service using sustainable woody biomass, providing a practical pathway for industrial decarbonization and repurposing of thermal power assets.

The paper “The Staged, Pressurized Oxy-Combustion Technology: Status and Application to Boiler Retrofits to Yield Carbon-Negative Power via Biomass,” is authored by Duarte Magalhaes, Mao Cheng, Zachariah Wargel, Richard L. Axelbaum. Full text of the open access paper: https://doi.org/10.1016/j.eng.2025.11.016. For more information about Engineering, visit the website at https://www.sciencedirect.com/journal/engineering.
The Staged, Pressurized Oxy-Combustion Technology: Status and Application to Boiler Retrofits to Yield Carbon-Negative Power via Biomass
Author: Duarte Magalhaes,Mao Cheng,Zachariah Wargel,Richard L. Axelbaum
Publication: Engineering
Publisher: Elsevier
Date: April 2026
13/07/2026 HEP Journals
Regions: Asia, China
Keywords: Science, Energy

Disclaimer: AlphaGalileo is not responsible for the accuracy of content posted to AlphaGalileo by contributing institutions or for the use of any information through the AlphaGalileo system.

Testimonios

We have used AlphaGalileo since its foundation but frankly we need it more than ever now to ensure our research news is heard across Europe, Asia and North America. As one of the UK’s leading research universities we want to continue to work with other outstanding researchers in Europe. AlphaGalileo helps us to continue to bring our research story to them and the rest of the world.
Peter Dunn, Director of Press and Media Relations at the University of Warwick
AlphaGalileo has helped us more than double our reach at SciDev.Net. The service has enabled our journalists around the world to reach the mainstream media with articles about the impact of science on people in low- and middle-income countries, leading to big increases in the number of SciDev.Net articles that have been republished.
Ben Deighton, SciDevNet
AlphaGalileo is a great source of global research news. I use it regularly.
Robert Lee Hotz, LA Times

Trabajamos en estrecha colaboración con...


  • The Research Council of Norway
  • SciDevNet
  • Swiss National Science Foundation
  • iesResearch
Copyright 2026 by DNN Corp Terms Of Use Privacy Statement