Carbon Capture Solutions
GEA XECO Waste Heat Recovery
The utilization of excess heat from flue gases is the first step towards Carbon Capture & Utilization. This heat can be effectively transferred to the Carbon Capture Unit to provide a significant amount of the thermal energy needed for CO2 extraction from the amine solvent. The design of the heat exchanger is specifically tailored to the respective process flue gas.
How does XECO Waste Heat Recovery Solutions work?
The XECO Waste Heat Recovery system consists of a heat exchanger (WHRU) and a heat carrier loop. In the WHRU, heat that would otherwise be released unused to the atmosphere or quenched via water or air, is transferred to a heat carrier medium. The heat carrier medium and the process gas are contacted in cross-counter current to optimize heat transfer efficiency.
We optimize operating and design parameters such as gas velocity, pipe diameter, pipe thickness and gradients in the WHRU. This ensures customized solutions for specific application and process requirements, even for gases with high dust content (>> 10g/m3 std. dry), sticky dust or abrasive elements. The optimization ensures stability and reliability in your production processes.
Thermal oil or water can be used as a heat transfer medium. We have comprehensive experience in a wide range of thermal oils and pressurized water systems. We constantly focus on the environmental compliance and the well-being of personnel during heat transfer operations.
Benefits of XECO Waste Heat Recovery Solutions
The XECO Heat Recovery Technologies utilize your waste heat to operate your CEBO Carbon Capture system and thus reduces external energy requirements.
With decades of expertise in emission control, we have an in-depth understanding of the different flue gases in various industries. This knowledge is the most important resource for designing your XECO Waste Heat Recovery system. Our aim is to ensure a long service life, minimal maintenance requirements and optimized operating costs – all with the least possible impact on your production process, whether in glass- or cement industry, or other sectors.
Applications of XECO Waste Heat Recovery Technology
Cement Industry
The cement industry inherently emits CO2 during its processes. Based on our long-standing expertise in emission control, GEA has supplied scrubbers, dedusting and denitrification systems for the cement industry.
We offer a special XECO Waste Heat Recovery system that has proven itself in the treatment of kiln exhaust gases and exhaust gases from clinker coolers. Especially for the challenging kiln flue gas with high dust loads and challenging pollutants, GEA has supplied systems that have proven themselves over many years with outstanding heat transfer performance. These systems are still in use today for process heat transfer and ORC applications and can be easily integrated into future CEBO Carbon Capture plants.
Glass Industry
Among other heat-intensive production processes, the glass industry is also facing the challenge of becoming more sustainable.
GEA supports the glass industry in this field and has been supplying heat recovery systems for more than a decade. Whether upstream or downstream of an emission control system GEA offers a XECO Waste Heat Recovery system that does not affect the production process while recovering a large amount of waste heat. Our online purification system, on the raw gas side, optimizes the efficiency of heat transfer over extended periods of time and ensures consistent performance.
The system currently used in the glass industry to generate electricity via ORC or for heating purposes is able to redirect the waste heat to utilize it for CEBO Carbon Capture plants, for a more sustainable production.
Applications of XECO Waste Heat Recovery Technology
Decarbonizing the Cement Industry
The cement industry inherently emits CO2 during its processes. Based on our long-standing expertise in emission control, GEA has supplied scrubbers, dedusting and denitrification systems for
the cement industry.
Glass Industry
Among other heat-intensive production processes, the glass industry is also facing the challenge of becoming more sustainable.
GEA supports the glass industry in this field and has been supplying heat recovery systems for more than a decade. Whether upstream or downstream of an emission control system GEA offers a XECO WasteHeat Recovery system that does not affect the production process while recovering a large amount of waste heat. Our online purification system, on the raw gas side, optimises the efficiency of heat transfer over extended periods of time and ensures consistent performance.
The system currently used in the glass industry to generate electricity via ORC or for heating purposes is able to redirect the waste heat to utilise it for CEBO Carbon Capture plants, for a more sustainable production.
Spotlight: Glass Industry
Among other heat extensive production processes, also the glass industry is facing the challenge of becoming more sustainable.
GEA supports the glass industry in this field and has been supplying heat recovery systems for more than a decade. Both on the raw gas side upstream of an emission control system as well as downstream of an emission control system: GEA can provide a XECO Waste-Heat-Recovery system does not interfere with your production process while recovering a large amount of waste heat. On the raw gas side, an online cleaning system is used to optimize heat transfer over years.
The system, which is currently used in the glass industry to generate electricity via an ORC or for heating purposes, can use the waste heat for a CEBO Carbon Capture unit instead.
関連製品
GEA CEBO Carbon Capturing
Cutting-edge amine-based CO2 capture plants of various sizes for CO2 separation out of very diverse exhaust gas compositions.
GEA NAVO CO2 Utilization & Sequestration
Utilizing CO2 for producing CO2-based value-adding products or by liquefying and sequestrating CO2 in long-term storages.
GEA SETO Gas Pre-Treatment
Maximum long-term stability of the Carbon Capturing system by best-in-class solutions for cooling, condensing, and removal of solids, aerosols, sulfuric and nitric oxides.
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