Max Biermann
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View article: Plant and system-level performance of combined heat and power plants equipped with different carbon capture technologies
Plant and system-level performance of combined heat and power plants equipped with different carbon capture technologies Open
Installing carbon capture and storage (BECCS) capability at existing biomass-fired combined heat and power (bio-CHP) plants with substantial emissions of biogenic CO2 could achieve significant quantities of the negative CO2 emissions requi…
View article: Capture of CO<sub>2</sub> from Steam Reformer Flue Gases Using Monoethanolamine: Pilot Plant Validation and Process Design for Partial Capture
Capture of CO<sub>2</sub> from Steam Reformer Flue Gases Using Monoethanolamine: Pilot Plant Validation and Process Design for Partial Capture Open
Carbon dioxide (CO2) capture from a slipstream of steam reformer flue gas (18–20 vol %wet CO2) using 30 wt % aqueous monoethanolamine was performed for ∼500 h in a mobile test unit (∼120 kg CO2/h). Specific reboiler duties (SRDs) of 3.6–3.…
View article: The role of energy supply in abatement cost curves for CO2 capture from process industry – A case study of a Swedish refinery
The role of energy supply in abatement cost curves for CO2 capture from process industry – A case study of a Swedish refinery Open
Carbon capture and storage (CCS) activities need to be ramped up to meet the climate crisis. Abatement cost curves help identify low-cost starting points and formulate roadmaps for the implementation of CCS at industrial sites. In this wor…
View article: Efficient heat integration of industrial CO2 capture and district heating supply
Efficient heat integration of industrial CO2 capture and district heating supply Open
Excess heat from industrial processes can be used for carbon capture and storage (CCS) as well as providing heat to a district heating network, leading to increased energy efficiency and reduction of on-site and/or off-site CO2 emissions. …
View article: Integration of Industrial Co2 Capture with District Heating Networks: A Refinery Case Study
Integration of Industrial Co2 Capture with District Heating Networks: A Refinery Case Study Open
Industrial carbon capture and storage is recognized as an important technology to reach net zero emissions and mitigate global warming in accordance with the Paris agreement. Absorption-based carbon capture requires considerable amounts of…
View article: Carbon Allocation in Multi-Product Steel Mills That Co‐process Biogenic and Fossil Feedstocks and Adopt Carbon Capture Utilization and Storage Technologies
Carbon Allocation in Multi-Product Steel Mills That Co‐process Biogenic and Fossil Feedstocks and Adopt Carbon Capture Utilization and Storage Technologies Open
This work investigates the effects of carbon allocation on the emission intensities of low-carbon products cogenerated in facilities that co‐process biogenic and fossil feedstocks and apply the carbon capture utilization and storage techno…
View article: Oxygen‐Carrier Development of Calcium Manganite–Based Materials with Perovskite Structure for Chemical‐Looping Combustion of Methane
Oxygen‐Carrier Development of Calcium Manganite–Based Materials with Perovskite Structure for Chemical‐Looping Combustion of Methane Open
The present work is related to the upscaling of calcium manganite–based oxygen‐carrier materials, which have a perovskite structure, both with respect to the use of inexpensive raw materials, i.e., instead of pure chemicals, and the upscal…
View article: Efficient utilization of industrial excess heat for carbon capture and district heating
Efficient utilization of industrial excess heat for carbon capture and district heating Open
Carbon capture and storage (CCS) from fossil and biogenic (BECCS) emission sources is necessary to limit global warming to well below 2°C. The EU as well as Swedish national agencies emphasize the importance of CCS for emission intensive i…
View article: CO2stCap - Reducing the Cost of Carbon Capture in Process Industry
CO2stCap - Reducing the Cost of Carbon Capture in Process Industry Open
The CO2stCap-Project is a Norwegian-Swedish research initiative that was initiated in Year 2015 to reduce the cost of carbon capture in the process industry by developing concepts for the partial capture of emissions. The project is based …
View article: Scenario for near-term implementation of partial capture from blast furnace gases in Swedish steel industry
Scenario for near-term implementation of partial capture from blast furnace gases in Swedish steel industry Open
Iron-and-steel making is a carbon-intensive industry and responsible for about 8% of global CO2 emissions. Meeting CO2 reduction targets is challenging, since carbon is inherent in the dominating production route in blast furnaces. Long-te…
View article: Partial carbon capture – an opportunity to decarbonize primary steelmaking
Partial carbon capture – an opportunity to decarbonize primary steelmaking Open
Climate change requires that all energy-related sectors drastically reduce their greenhouse gas emissions (GHG). To have a high likelihood of limiting global warming to 1.5°C, large-scale mitigation of GHG has to start being implemented an…
View article: CO2 Capture Opportunities in the Norwegian Silicon Industry
CO2 Capture Opportunities in the Norwegian Silicon Industry Open
CO2 capture opportunities for the Norwegian silicon industry have been assessed through a techno-economic investigation. Two silicon plants have been studied for integration with a split-flow MEA-based CO2 capture plant. The two plants con…
View article: Evaluation of Steel Mills as Carbon Sinks
Evaluation of Steel Mills as Carbon Sinks Open
The iron and steel industry is one of the industries with the largest global contribution to CO2 emissions. Possible mitigation options include use of biomass and carbon capture and storage. Combining these two mitigation options, this stu…
View article: CO2 Capture from Combustion of Biomass Volatiles with a Chemical-Looping Combustion Process
CO2 Capture from Combustion of Biomass Volatiles with a Chemical-Looping Combustion Process Open
Chemical-looping combustion (CLC) is a low-cost CO2 capture technology that uses oxygen carriers – metal oxides – for oxygen transfer from air to fuel. This enables fuel oxidation without mixing fuel and combustion air. After condensation …