Product Description
THERMIC FLUID / WASTE OIL / TRANSFORMER OIL ANALYSIS
- Specific Gravity
- Boiling Point
- Moisture content
- Flash Point
- Sediment
- Kinematic Viscosity at 40 & 100 0C
- Viscosity Index.
- Copper Strip Corrosion
- Neutralization Number mg KOH /gm
- Specific Heat
- Sulphur, Lead, Cadmium, Chromium, Nickel, Arsenic by ICP
- Dissipation Factor at 90 0C
- Resistivity at 90 0C
- Electric Breakdown Voltage
- Interfacial Tension
- Sludge
- PCBs by GCMS
- Dissolved Gas Analysis
Comprehensive Thermic Fluid AnalysisOur service employs advanced laboratory techniques to assess the physical, chemical, and thermal properties of your thermic fluid. We identify contamination and degradation, ensuring optimal performance and compliance with ASTM and IP/IS standards. Whether synthetic or mineral-based, your fluid is analyzed using state-of-the-art spectroscopic and chromatographic equipment to generate accurate data for maintenance decisions.
Industries Served and ApplicationsWe support a diverse range of industries, including textiles, pharmaceuticals, plastics, food processing, chemical plants, and manufacturing. Our testing solutions help companies maintain the reliability and efficiency of their heat transfer systems by providing insights into fluid quality, enabling prompt maintenance or replacement actions to prevent costly downtime.
Streamlined Process and Fast TurnaroundSimply submit a minimum 500 ml sample in a clean, sealed container via our pickup service or courier. Our laboratory will conduct an array of certified tests, delivering a comprehensive technical reportcomplete with recommendationswithin 25 working days after sample receipt. All analyses are performed by skilled professionals using calibrated instruments for high accuracy.
FAQs of Thermic Fluid Testing Services:
Q: How is thermic fluid quality analyzed in your laboratory?
A: We utilize advanced physical, chemical, and thermal property analysis methods, including spectroscopic and chromatographic techniques, following ASTM D6744, ASTM D2896, ASTM D92, and IP/IS standard methods. This ensures an exhaustive assessment of your thermic fluid for parameters such as viscosity, flash point, pour point, acidity, moisture, and contamination.
Q: What is the process for submitting samples for thermic fluid testing?
A: Clients need to submit at least 500 ml of thermic fluid in a clean, sealed container. You can use our sample pickup facility or dispatch the sample via courier to our laboratory. Upon receipt, our team initiates thorough testing and delivers a comprehensive report within 25 working days.
Q: When should I consider testing my thermic fluid?
A: Regular monitoring is recommended as part of preventive maintenanceusually once or twice a year, or whenever changes in system performance, abnormal fluid color, or unexplained shutdowns are observed. Early detection of degradation or contamination can help prevent costly system failures.
Q: Where are your thermic fluid analysis services available?
A: Our laboratory-based services are accessible across India. Samples can be collected via our pickup service or sent to us through courier, making it convenient for clients in various industrial regions.
Q: What are the main benefits of thermic fluid condition monitoring?
A: Routine quality analysis helps detect contamination, degradation, and changes in the chemical structure of thermic fluids. This proactive approach improves system efficiency, prolongs fluid life, prevents costly equipment failures, and ensures process safety and compliance with industry standards.
Q: Which industries can benefit from your thermic fluid testing services?
A: Industries such as textiles, pharmaceuticals, plastics, food processing, chemicals, petrochemicals, and general manufacturing benefit from our services. Our analysis helps maintain optimal heat transfer performance across diverse applications.
Q: What does the technical report include, and how is it useful?
A: Our comprehensive report details all test findings, compares results with relevant standards, and presents clear recommendations for fluid replacement or ongoing maintenance. This aids in effective decision-making to maintain system reliability and reduce unplanned downtime.
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