Heavy Industries

  • STEEL & METAL INDUSTRIES
  • MINING, MINERAL & CEMENT INDUSTRIES
  • Marine, Oil & Gas Industries

Customer challenges

Steel and aluminum smelting are energy intensive processes. Smelting is carried out with disturbing loads, mostly Electric Arc Furnaces. Electric Arc and other types of furnaces frequently cause power quality problems, including voltage variations, flicker, poor power factor and harmonic distortions. Poor power quality means longer melt time, lower productivity, energy losses and higher operating costs. If steel plants are connected to weak grids and fail to operate at full power or in daytime, production capacity is affected. Rolling mills may face similar power quality issues. Moreover, where steel plants are connected to the public grid, their operation may disturb any customers connected to the same bus.

Solutions

  • Active Harmonic Filter (AHF)

  • Static Var Generator (SVG)

  • Hybrid Static Var Generator (SVGC)

  • Energy Storage System (ESS)

Applications

    • Electric Arc Furnace (EAF) – AC and DC
    • Induction furnace
    • Ladle furnace
    • Shredder
    • Hot rolling mill
    • Cold rolling mill

Customer benefits

The key benefits of improving power quality in Steel and Metal industry include:

  • Shorter melting time and increased production capacity of melting plants
  • Increased slab size in rolling mills without jams in shredders
  • Elimination of flicker and reduced consumption of electrodes
  • Lower energy costs
  • Extended lifetime of refractory lining
  • Compliance with strict grid codes including IEEE 519, G5/4, IEC61000 3-2, 3-4 and other power quality standards and recommendations

Customer challenges

Mining and mineral plants are typically located in remote areas far from power generation plants. Power is distributed through long overhead lines, which may stretch up to hundreds of kilometers, weakening grids and lowering the fault levels. Power quality issues arise when a weak network is used to feed large winders, sag mills, or other heavy mining loads. When the heavy motors are started, arising flicker and voltage sags may disturb other loads in the plant. Voltage sag may also significantly reduce motor torque and thus affect productivity. Even if mining plants are operated on capacitive power plant, additional gensets are needed to keep the short-circuit level higher resulting in higher operational costs. Another major concern in mining plants are high harmonic distortions caused by DC, Cycloconverter and VSD drives. This kind of power quality problems will damage capital mining equipment and obstruct the continuity of mining processes.

Solutions

  • Active Harmonic Filter (AHF)

  • Static Var Generator (SVG)

  • Hybrid Static Var Generator (SVGC)

  • Energy Storage System (ESS)

Applications

    • Mine winders
    • Sag mills, Ball mills and Rod mills
    • Conveyers
    • Crushers and grinders
    • Excavators
    • Large inductive loads such as fans, pumps and compressors
    • ShovelsKiln drive

Customer benefits

The key benefits of improving power quality in Mining, Mineral and Cement industries include:

  • Increased motor torque and up to 30 % better payload
  • Improved production capacity of large mining loads without jams
  • Fewer gensets requirements and still more effective short-circuit capacity
  • Fuel savings and lower operating costs
  • Energy savings
  • Extended lifetime of the lining
  • Compliance with strict grid codes including IEEE 519, G5/4, IEC61000 3-2, 3-4 and other power quality standards and recommendations

Customer challenges

Isolated power grids are typically weak and commonly found in marine, oil & gas and mining applications. Large and dynamic loads on isolated power grids with low fault level cause numerous power quality issues, including higher harmonic distortion, flicker, rapid voltage variation and poor power factor. Such power quality problems lead to frequent breakdowns of sensitive electronic equipment, energy losses and even costly blackouts. To increase the short-circuit level, conventional solutions, such as running additional gensets, require additional investments and higher recurring costs in terms of fuel and engine maintenance. Also, conventional solutions do not reduce high harmonic distortion produced by non-linear loads on isolated grids.

Solutions

  • Active Harmonic Filter (AHF)

  • Static Var Generator (SVG)

  • Hybrid Static Var Generator (SVGC)

  • Energy Storage System (ESS)

Applications

    • Marine vessels
    • Offshore and onshore oil drilling rigs
    • Oil & gas pumping stations
    • Refineries
    • Other large and dynamic loads on isolated power grids

Customer benefits

The key benefits of improving power quality in isolated power grids include:

  • Fewer diesel gensets and more effective short-circuit capacity
  • Fuel savings and reduced operational costs
  • High process reliability and low operating costs
  • Extended lifetime of electrical equipment in the plant
  • Compliance with IEEE-519, G5/4, IEC61000 3-2, 3-4 and other power quality standards and recommendations

Other Applications

Renewable Energy

Increased integration of the wind & solar energy into the power grid impacts the grid’s reliability, due to the inherent variable and uncertain nature of wind & solar power.

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Infrastructure & Utilities

Water and Waste Water Treatment Plants, Heat, Ventilation and Air Conditioning (HVAC) & District Cooling Plants and Transmission and Distribution Utilities.

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Commercial Buildings

Hospitals, Data Centers and IT facilities, Airports and Other Commercial Facilities. Power quality issues affect the service quality of healthcare providers, Airports their operating costs as well as patient safety and comfort.

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Light Industries

Industries with Fast Fluctuating Loads, Critical Process Industries, Conventional Manufacturing Industries. The need for reactive power compensation may change rapidly during a complete operational cycle of fast fluctuating loads such as welding machines.

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