Fuel oil treatment for gas turbines
Clean fuel. Protected turbines. GEA’s treatment systems ensure your gas turbines run safely and efficiently - whether powered by diesel oil, crude oil or heavy fuel oil.
Cleaner fuel. Longer turbine life.
Gas turbines demand the highest fuel quality to operate safely, efficiently and economically. Even trace contaminants can lead to corrosion, fouling and costly downtime. GEA’s advanced fuel oil treatment systems ensure your turbines receive clean, compliant fuel whether you're running on diesel oil, crude oil or heavy fuel oil.
Diesel oil treatment – Simple handling, reliable protection
Distillate fuels like diesel oil are widely used in gas turbines due to their clean combustion and ease of handling. However, during transport and storage, contaminants such as sand, rust, scale and water often enter the fuel - frequently exceeding the purity limits set by turbine manufacturers. While these fuels typically contain low levels of trace metals the risk of contamination during logistics remains high and treatment is usually performed at ambient temperature.
GEA’s solution employs single-stage centrifugal separation, with optional pre-heating for high-viscosity fuels or cold climates. The system features self-cleaning separators for continuous operation and comes in modular, pre-assembled units for plug-and-play installation.
This approach ensures compliance with turbine OEM purity specifications, reduces wear and corrosion, prevents bacterial growth in storage tanks and extends maintenance intervals - maximizing turbine uptime and reliability.
Crude oil treatment – Safe operation with complex fuels
Crude oil is increasingly used in gas turbine power plants, especially in regions with direct access to upstream supply. Even after pre-cleaning, it still contains waxes, salts and solids that must be removed to meet turbine fuel standards. Its viscosity can vary from diesel-like to very heavy, and the presence of waxes requires heating above their melting point. In addition, the low flash point of crude oil makes explosion protection measures necessary.
GEA’s treatment solution includes single-stage separation for light crude oils, along with heating and inert gas flushing to ensure safety. All components are ATEX-compliant for use in hazardous areas and the system comes complete with auxiliary equipment such as pumps, heaters, and controls.
This setup effectively reduces sodium, potassium and water content, minimizes corrosion and fouling and enables safe, unattended operation for extended periods - ultimately protecting turbine blades and extending overhaul cycles.
Heavy Fuel Oil (HFO) Treatment – Optimized cleaning for low-cost fuels
HFO is a low-cost fuel option, but its high levels of trace elements and sediments - such as sodium, potassium, vanadium and catalytic fines - pose serious risks to turbine components if left untreated. With high viscosity and density, HFO requires heating and chemical conditioning to meet operational standards.
GEA’s treatment solution uses a two-stage process to efficiently remove salts and impurities. The fuel is blended with water and additives to break emulsions and enhance separation, targeting both water-soluble salts and abrasive solids. Modular systems with integrated heat exchangers and controls ensure reliable performance.
This approach achieves OEM-specified purity levels (e.g., Na+K < 1 ppm), prevents high-temperature corrosion and deposits and supports continuous, unattended operation. The result is reduced lifecycle costs and extended turbine service life.
Power your turbines with confidence
GEA’s fuel oil treatment systems are engineered to meet the strictest turbine fuel standards, protecting your equipment and ensuring reliable energy production. Whether you're burning diesel, crude or heavy fuel oil, we deliver clean fuel, longer uptime and lower maintenance costs.
Let GEA help you protect your turbine - efficiently, safely and sustainably.
المنتجات والتقنيات
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Machine automation & control
Every plant or machine, which is designed for a reliable long-term operation, requires a control unit that enables the communication between the different system parts. It is one of the most important component that guarantees reliability and efficient operation.
جهار الطرد المركزي
يتم تصميم آلات الفصل في GEA للاستعمالات القائمة على السوائل. وباستخدام قوة الطرد المركزي، تستخدم لفصل المعلقات المكونة من مرحلتين أو أكثر من كثافات مختلفة، أي يمكن أن تستخدم في نوع الفصل سائل-سائل، أو سائل-سائل-صلب، أو سائل-صلب. كما أنها فعّالة على حد سواء في فصل عمليات الخلط السائلة في نفس الوقت كما هو الحال مع إزالة المواد الصلبة.
رؤى GEA
ما وراء التحضير: التطور الفني لاستخلاص القهوة
يزداد الطلب على القهوة سريعًا. اكتشف كيف تعمل تقنية الاستخلاص المستمر من GEA على تعزيز الإنتاجية، والحفاظ على النكهة، وتوفير الموارد.
من شأن المضخات الحرارية أن تُسرّع من إزالة الكربون عن التدفئة المناطقية
يتجلى تأثير الاحتباس الحراري العالمي بشكل متزايد في مختلف أنحاء العالم. تواجه البلدات والمدن في كل مكان التحدي نفسه: تزويد مجتمعاتها بتدفئة موثوقة وبأسعار مناسبة ومستدامة المصدر. وقد استشارت GEA خبيرًا في هذا المجال، كينيث هوفمان، مدير قسم المضخات الحرارية في شركة GEA لتقنيات التدفئة والتبريد، حول سبل الإسراع في معالجة ظاهرة الاحتباس الحراري.
عِش في المستقبل الرقمي لإنتاج الألبان مع GEA
لفت شيء ما انتباه المزارع توم. بدلاً من تقديم عرض تجريبي آخر للمنتج، عرضت GEA ابتكارات عبر الواقع المعزز. هذه مجرد بداية المزرعة الرقمية التفاعلية من GEA.
