"compensation equipment"
- 8 Items Found
High Voltage Compensation Equipment For Submerged Arc Furnace
SAF High Voltage Compensation System High Voltage Compensation System Used for Submerged Arc Furnace I. Overview Compensation equipment is a key component in metallurgical power supply systems, used to improve power factor, stabilize voltage, filter harmonics, reduce line losses, and ensure stable operation of impact loads such as EAFs and refining furnaces. Based on voltage level, compensation principle, and functional characteristics, they are mainly classified into the
1000V Low Voltage Compensation System For Submerged Arc Furnace
SAF Low Voltage Compensation System Low voltage compensation systems are mainly used in 0.4kV and 0.69kV distribution systems, suitable for refining furnaces, auxiliary equipment, and workshop distribution. National standard GB/T 15576-2020 specifies technical requirements for low-voltage reactive power compensation assemblies.I. General Parameters of Low Voltage Compensation DeviceParameter SpecificationRated Voltage1000V (or 1140V) Frequency1000 Hz Dynamic Response
Submerged Arc Furnace Material Handing System Furnace Auxiliary Equipment
Material Handing System Material Handing System Used for Submerged Arc Furnace The Material Handing System(MHS) is an important part of metallurgical equipment such as EAF, refining furnace, and submerged arc furnace (SAF), responsible for accurately and efficiently delivering raw materials (scrap, ferroalloys, slag-forming materials, etc.) into the furnace according to process requirements. Core Equipment Classification of Material Handing System Bin Storage & Conveying
RH Ruhrstahl Heraeus Vacuum Degassing Refining Furnace 80T~320T
Ruhrstahl Heraeus (RH) Vacuum Degassing Refining Furnace (80t~320t) I. Overview The RH vacuum circulation degassing process (RH process) is a highly efficient secondary refining technology for molten steel. It was jointly developed by Ruhrstahl and Heraeus in Germany in 1957, with the equipment name derived from the initials of the two companies. This technology utilizes the vacuum circulation principle to perform various refining treatments on molten steel, including
0.5T - 30T EAF Small Electric Arc Furnace 2200kVA Mini Arc Furnace
Small-Scale Electric Arc Furnace (Approx. 0.5t - 30t) Small-scale electric arc furnaces (EAFs) in the 0.5 to 30 ton range are the entry-level choice for many small foundries, specialty steel producers, and research and development institutions. They offer high flexibility, lower initial investment, and the ability to produce a wide variety of high-quality steels and alloys, making them an ideal solution for market-oriented, small-batch, and multi-variety production. I.
Ladle Arc Furnace LF 15T~300T Ladle Furnace Refining 3MVA-48MVA
Ladle Electric Arc Furnace(LF 15~300t) Refining furnaces, also known as secondary refining furnaces or ladle refining equipment, are used for deep treatment of molten steel from primary furnaces (EAF, converter, etc.). They aim to improve molten steel purity, adjust composition and temperature, and meet the production requirements of continuous casting and high-quality steel. The LF furnace is the most widely used secondary refining equipment, with specifications covering 6t
Ferronickel Submerged Arc Furnace 6.3MVA To 45MVA Reduction Furnace
6.3 MVA to 45 MVA Ferronickel Submerged Arc Furnace I. Overview The ferronickel submerged arc furnace (also known as a reduction furnace) is the core equipment specifically designed for smelting ferronickel alloy. This series covers capacities from 6.3 MVA to 45 MVA, encompassing medium, medium-large, and large ferronickel production units. Ferronickel is a key raw material for stainless steel production. The ferronickel furnace reduces nickel and iron oxides in laterite
IP65 Temperature Measurement Instruments Arc Furnace Temperature Measurement Device
Temperature Measurement Instruments Used for Arc Furnace Temperature is one of the most critical parameters in metallurgical furnace control. SAF and EAF require temperature measurement at multiple points including furnace chamber temperature, flue gas temperature, cooling water temperature, and molten steel/hot metal temperature. 1. Thermocouple Type Measuring Range Features Applications Type K -200~1300 Good linearity, low cost, moderate oxidation resistance Furnace
