Sorption
GEA offers three (“wet”, “semi-dry” and “dry”) Sorptive Processes for Flue Gas Desulphurization (FGD) and for other acidic compounds.
GEA is the right partner, providing customers around the world with complete support for all aspects of emission control to comply with the highest air emission standards.
GEA has several process options available for the secure removal of SOx and other acidic compounds.
Different sorptive processes allow the removal of sulfur oxides (SOx) from flue gases produced from power stations, industrial combustion, chemical manufacturing and mineral ore processing. FGD (Flue Gas Desulphurization) systems are categorized as either “wet”, “semi-dry” or “dry” according to the phase in which the flue gas reactions take place.
GEA offers Emission Control proven solutions utilizing the below mentioned sorption technologies:
- Wet scrubber systems that use a liquid absorbent.
- Spray Drying Absorbers (SDA) are semi-dry systems in which a solid sorbent is diluted with a small amount of water.
- Dry Sorbent Injection (DSI) injects dry sorbent directly into a flow reactor or in front of dedusting devices providing enough time for chemical reaction.
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Removal of SOx by dry scrubbing
The dry sorption process removes acid gases like sulfur oxides (SOx) and hydrogen chloride (HCl) through two basic steps. The first step is injection of a dry sorbent into the entrained flow reactor. The second one removes the formed compounds through a downstream particulate matter control device such as a baghouse filter, electrostatic precipit...
Removal of SOx by wet scrubbing
For the wet desulphurization of flue gas, a scrubbing liquid is recirculating and injected to the exhaust where SOx is absorbed in the liquid and reacts. Simultaneously, the flue gas is saturated with water vapor. The reagent is fed to the sump of the scrubber unit and intermittent dewatering is used to drain the reaction agent.
مجفف الرذاذ الماص
تعمل أجهزة مجفف الرذاذ الماص على تسهيل إزالة الملوثات الحمضية والمعادن الثقيلة والغبار من غاز الاحتراق والغازات المتسربة في محطات الطاقة المزودة بالوقود الحفري، ومحرقات النفايات، والمنشآت الصناعية.
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Pre2Fuel: Cleared for takeoff
GEA's innovative process marks a milestone in the pretreatment of biofuels such as hydro-treated vegetable oil and sustainable aviation fuel. By eliminating the bleaching process, manufacturers benefit from significant savings potential: over 50% lower operating costs and up to 12% less CO2 emissions.
الحقبة التالية لإنتاج الغذاء مع GEA NEXUS
يضع تغير المناخ والنمو السكاني العالمي ضغوطًا متزايدة على صناعة الأغذية كثيفة الاستهلاك للطاقة لإطعام المزيد من الناس دون الإضرار بالكوكب، ويشرح جورج شيبرد، مدير تكنولوجيا الاستدامة العالمية في GEA، كيف تستخدم GEA خبرتها الهندسية لمساعدة المعالجات على الإنتاج بشكل أكثر استدامة مع زيادة الإنتاجية.
Making milk production more sustainable for a growing world
The world's population is growing and with it demand for milk. Dairy is an essential component of many global diets. However, its production can be resource-intensive and impact the environment. GEA’s Christian Müller, Senior Director Sustainability Farm Technologies, sheds light on how technological innovations powered by GEA make milk production more efficient and profitable.
