中村 治

Forum Replies Created

Viewing 15 posts - 31 through 45 (of 59 total)
  • Author
    Posts
  • 中村 治
    Participant

    GE transformer oil products, where offered, are typically formulated as insulating liquids intended for transformer and switchgear service with controlled dielectric and thermal properties. Characteristics generally include high dielectric strength when clean and dry, low moisture content at delivery, stable viscosity over operating temperatures, adequate flash point for handling safety, low acidity, and compatibility with cellulose insulation. The exact characteristics depend on the specific product and whether it is mineral oil, ester, or silicone based. Utilities rely on the product data sheet, batch certificates, and compliance to standards such as IEC 60296 for mineral oils to confirm suitability.

    中村 治
    Participant

    They are used in utility distribution networks, outdoor substations, industrial plants, and rural electrification systems where reliability, high load capacity, and environmental exposure resistance are required.

    中村 治
    Participant

    Moisture migrates between oil and paper insulation depending on temperature. High moisture reduces dielectric strength, accelerates paper aging, and increases partial discharge risk. Managing moisture equilibrium is essential for long-term insulation reliability.

    中村 治
    Participant

    Purification equipment removes moisture, particles, dissolved gases, acids, and oxidation by-products. It restores dielectric strength, improves cooling performance, and extends oil and transformer service life.

    中村 治
    Participant

    True PCB removal is complex and must follow regulated processes. Approaches include sending oil to licensed facilities for dechlorination, specialized chemical treatment, or high temperature destruction, depending on the jurisdiction and PCB concentration. In some cases, contaminated oil is removed and replaced, and the transformer may be decontaminated or disposed as PCB equipment. Filtration alone does not reliably remove dissolved PCBs. Safe handling requires PPE, sealed containers, spill prevention, strict labeling, chain of custody documentation, and compliance with hazardous waste transport and disposal regulations.

    中村 治
    Participant

    Reconditioning removes moisture, dissolved gases, and particulates via filtration, vacuum dehydration, and degassing. It can improve BDV, resistivity, and dielectric dissipation factor, slowing further insulation stress. However, it does not fully reverse chemical aging of paper insulation. If acidity and sludge precursors are high, full regeneration with adsorbents may be needed to restore oxidation stability and interfacial tension more effectively than simple filtration alone.

    中村 治
    Participant

    In insulation systems, transformer oil provides the main liquid dielectric between energized parts and grounded structures, reducing electric field stress and preventing arcing. It impregnates cellulose insulation, filling micro voids and improving dielectric uniformity. Oil also carries away heat, keeping insulation temperature and aging rate under control. In addition, oil serves as a diagnostic medium because fault gases dissolve in it and can be analyzed to detect internal problems before catastrophic failure.

    中村 治
    Participant

    Oil electrically insulates windings and conducts heat away from active parts. It fills voids, reduces partial discharge risk, and transports thermal energy to cooling surfaces, enabling compact and efficient transformer design.

    中村 治
    Participant

    Common laboratory tests include Dissolved Gas Analysis (DGA), moisture content testing, dielectric breakdown voltage (BDV), acidity measurement, interfacial tension, and furan analysis. These tests assess insulation health, detect overheating or arcing, and identify aging of paper insulation. Together, they provide a comprehensive picture of transformer condition and help guide maintenance decisions.

    中村 治
    Participant

    Kelman Transport X is a portable dissolved gas analysis (DGA) device for transformer oil. It detects fault gases like H?, CO, C?H?, CH?. Alternatives include Doble and Vaisala analyzers. Fluidex systems integrate with lab kits or allow inline sampling via vacuum-sealed oil circuits.

    中村 治
    Participant

    An oil regeneration plant restores aging insulating oil through clay adsorption, vacuum degassing, and sludge removal. Used by utilities, transformer manufacturers, and industrial contractors. Fluidex and GlobeCore offer turnkey regeneration plants with reactivatable clay and integrated testing.

    中村 治
    Participant

    Vacuum dehydration oil purification removes moisture content from transformer oil down to <10 ppm. Moisture is the #1 cause of insulation failure. Fluidex systems use high-vacuum chambers, heating, and controlled flow to achieve consistent results. Ideal for aged or wet oil recovery.

    中村 治
    Participant

    Price ranges from ?12,000 to ?40,000 depending on configuration: heating, vacuum level, automation, and portability. Fluidex offers models with optional BDV testers, online filtration, and DGA sampling ports – ideal for utilities and contractors.

    中村 治
    Participant

    For high-load or mission-critical transformers, schedule DGA tests every 6 months. Fluidex purification units support safe DGA sampling post-filtration. Timely analysis helps detect faults like corona or thermal breakdown before they escalate.

    中村 治
    Participant

    The tan delta test checks insulation degradation. If oil is contaminated (wet, oxidized), it may distort test results. Fluidex oil purification improves test accuracy by ensuring the dielectric medium is clean and dry – letting you evaluate solid insulation more reliably.

Viewing 15 posts - 31 through 45 (of 59 total)

Become a Fluidex dealer ?

Fill out the form and become our dealer!

      Fluidex

      Contact us!