Whether it comes to extraction, processing or transport, all of the processes concerning crude oil and natural gas are subject to the strictest standards in terms of operational safety, and necessitate a reliable, interference-free power supply. At the same time, at many locations both onshore and offshore, extreme environmental conditions are not uncommon. The Maschinenfabrik Reinhausen product range offers a variety of system solutions in order to ensure reliable, efficient and interruption-free operation under these difficult conditions. For example, MR provides reactive power compensation systems to improve the displacement factor cos phi, filter circuits for harmonics reduction, equipment for balancing non-symmetrical loads, dynamic compensation systems for voltage stabilization, and equipment for preventing transient voltage drops.
Based on nearly 20 years of experience, ZDDQ already supports its customers during the planning phase of a new system, through tasks such as measurements and grid analyses.
Are you sure that your production facilities are sufficiently protected against disruptions? We are happy to carry out a comprehensive grid analysis with you in order to proactively identify any possible problems. Naturally, should you have any questions, feel free to contact us at any time.
Our typical projects
Industry
background
Oil extraction and production facilities on offshore platforms face high
temperatures, high pressures, high flammability, and high volatility, which
demands a highly reliable, continuous, safe, and high-quality power supply.
Offshore platforms require ongoing operations and power system failure for a
few cycles can shut down a large amount of production equipment and cause
catastrophic consequences, including unplanned shutdowns, industrial safety
accidents, and pollution.
Due to production needs, offshore oil platforms use a large number of pumps, and most pumps are equipped with VFDs. The use of many VFDs results in a significant increase of harmonic current in the distribution systems of offshore platforms. Six-pulse rectification is often used in the rectifier of VFDs to convert alternate current into direct current, which generally produce harmonics of the 5th, 7th, and 11th orders. Besides reducing the work efficiency of equipment, this type of harmonic load causes voltage distortion in circuit impedance and accumulates which weakens the entire grid and threatens distribution stability and all electricity loads.
Customer
Victory Oil
manfufacture, which is the largest offshore oil & gas producer in SHD
province
Power quality
problem description
In general, VFDs are equipped with passive filters of LC circuits. When
absorbing harmonics, the inductor-capacitor network also inputs a large volume
of capacitive reactive power into the grid causing leading phase operation in
the generators. High impedance is supported on the offshore platform’s
generator to compensate for the capacitive reactive power in the grid. However,
this practice is extremely unsafe. Transformer loads are very high while the
power factor is extremely low when too much capacitive reactive power flows in
the grid. As a result, this is unfavorable to the safety and stability of the
power supply on the offshore platform.
If harmonic current runs through capacitors for a long time, capacitor performance is reduced. For example, the lifespan is shortened, capacitance falls, and the designed resonance point of the LC circuit changes so that resonance occurs more easily. This is not safe for the entire circuit.
Harmonic current brings additional losses to transformers cause them to overheat, which accelerates aging of the insulation medium and causes insulation failure. Harmonics raise apparent power, accelerate equipment wearing, and limit equipment efficiency. Also, harmonics have direct negative effects on the capacitors, breakers, and relay protection of the site power system. For example, capacitors blow very often and breakers and relay protection can respond incorrectly and even without cause. When harmonics increase, instrumentation readings may be incorrect, resulting in indication deviations.
Effectiveness
The effectiveness of the ZDDQ active power filer is significant, as shown in the data below:
Current waveform and THD before and after the APF application are shown below. The following figures show only the on-load condition of four VFDs. Current waveform improved significantly after management, and harmonics of the 5th, 7th, 11th and 13th orders were basically eliminated.
The effect before and after APF implementation is shown below. Before compensation the transformer worked at gear 1 (the highest), and there was no space for adjustment. After compensation the transformer works at gear 4, leaving ample space for adjustment. Before management, the generator was in slight leading phase operation. After management it operates normally. The APF’s effect on grid improvement is very significant.
Project conclusions
APF demonstrates excellent power management performance for the oil extraction
industry. By significantly enhancing the reliability, continuity, and safety of
distribution systems, it provides a total solution for power quality problems
to prevent severe and even catastrophic consequences due to power quality
problems. In addition, as s APF reduces the equipment failure
rate, it fully releases the distribution margin, and facilitates raising the
capacity, to provide tremendous economic value over the long run.
Site Pictures
NO.25,JINHE RD,HUAIYUAN ECONOMIC DEVELOPMENT ZONE ,BENGBU,ANHUI
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