
SupportOil Tech

Engineered Systems for Waste Oil Recovery.
Designed for reliable processing, practical operation, and scalable industrial use.

Support Oil Tech designs and supplies compact modular waste oil re-refining plants for industrial applications. We develop practical systems for used lubricating oils and selected industrial waste oils, engineered according to feedstock condition, required capacity, and target product quality. Our approach focuses on reliable processing, practical operation, and scalable plant solutions.
Designed for Sustainable Industry: 50 TPD Integrated Process Plant



Ultra-Deep Vacuum & Thin Film Evaporation (WFE/SPE)
At the core of the process lies Short Path / Thin Film Evaporator technology, effectively reducing thermal stress to zero. Oil molecules are separated from heavy metals, polymers, and asphaltic residues in a single pass without undergoing thermal degradation.
Fully Automated Continuous Process
We eliminate the inefficiencies of batch processing. Empowered by SCADA-based smart automation, our continuous flow architecture ensures the system operates 24/7 with unwavering quality and capacity, requiring no manual operator intervention.
Dynamic Heat Integration (Zero Energy Waste)
Waste heat generated within the system is intelligently fed back into the pre-heating stage via a robust tubular heat exchanger network. Furthermore, light combustible gases recovered during the process are repurposed as fuel in the plant's own burners, drastically minimizing external energy dependency.
Precision Fractionation & Multi-Product Output
Engineered with a superior distillation tower design, the system simultaneously extracts the market's most demanded SN 150 (Light), SN 300 (Medium), and SN 500 (Heavy) base oils with pinpoint viscosity accuracy from a single processing line.
Modern Solvent Extraction (Closed-Loop System)
Uncompromising color and odor stabilization is mandatory for achieving international Group 1 standards. Operating with near-zero solvent loss, our closed-loop extraction unit definitively purifies the oil from all oxidation residues, yielding a sparkling, premium final product.

Process Architecture Reference Standards
ASME B31.3
ASME BPVC Section VIII
API 650
NFPA 30
ATEX / IECEx

Our goal is to provide investors of all scales with the reliability, efficiency, and quality of an international "Mega Refinery"—not as a luxury, but as a standard engineering infrastructure. In line with this vision, we build our facility designs on three fundamental principles:
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Facility Layout at Global Standards: No equipment in our facility models is positioned randomly. We strictly refer to international codes such as API (American Petroleum Institute) and NFPA (National Fire Protection Association). Potential on-site risks are eliminated during the design phase by calculating emergency response distances between reaction units and storage tanks, piping architecture, and maintenance ergonomics down to the last millimeter.
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Uncompromising Occupational and Process Safety: A compact production capacity does not imply cutting corners on safety measures. Pressurization limits, high-vacuum controls, Ex-Proof (explosion-proof) protections, and fire/spill prevention protocols in our process flow are structured based on the "zero tolerance" principles mandated in giant petrochemical complexes.
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Sustainable and Smart Efficiency: We integrate advanced automation and modular system approaches—the brains of modern refineries—into our projects. Designed for minimum energy consumption and maximum space optimization, these compact facilities enable you to produce high-standard Group 1 base oils, such as SN150, SN300, and SN500, with the lowest possible operating costs.


