Water Turbine Model with Dynamo
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Product Code : SCL-TMFEEL-12194
This educational instrument facilitates the empirical analysis of gravitational potential energy conversion into electrical power. Engineered for secondary and vocational technical training (TVET), it enables the quantification of turbine efficiency relative to fluid pressure and load variables. Compliant with international pedagogical safety standards, the model supports fluid mechanics and renewable energy curricula in university-preparatory laboratory environments.
Technical Specifications
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Tender Specification |
OEM Technical Detail |
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Turbine Configuration |
Pelton-type impulse wheel with high-impact polymer buckets |
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Housing Material |
Transparent, impact-resistant acrylic for flow visualization |
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Generator Type |
Integrated DC dynamo with multi-meter terminal outputs |
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Nozzle Assembly |
Precision-machined fluid inlet optimized for velocity head |
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Mounting Interface |
Ruggedized, chemically-resistant insulated base |
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ISO Compliance Code |
ISO 9001:2015 Quality Management Systems |
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HS Code |
9023.00 (Instruments, apparatus and models, designed for demonstrational purposes) |
Key Pedagogical Outcomes (Bloom’s Taxonomy)
Feature: Transparent Turbine Chamber. Outcome: Allows students to visualize the interaction between the fluid jet and bucket geometry, supporting Fluid Dynamics Module 102.
Feature: Integrated DC Dynamo. Outcome: Demonstrates Faraday’s Law of Induction through tangible mechanical-to-electrical transduction, facilitating "Analyze" level physics experiments.
Feature: Standardized Terminal Outputs. Outcome: Enables the use of external multimeters to calculate electrical power and system efficiency, satisfying TVET laboratory requirements.
Feature: Adjustable Inlet Pressure Interface. Outcome: Encourages students to evaluate the relationship between head height and rotational velocity, fostering the "Evaluate" phase of STEM inquiry.
International Logistics & Compliance
All units are secured in export-grade seaworthy crating (ISPM-15 compliant) to ensure the integrity of the acrylic housing and dynamo alignment during multi-modal transit. Documentation packages provided with each consignment include the Manufacturer’s Authorization Form (MAF), IQ/OQ/PQ Certification protocols, and comprehensive technical user manuals in English. The instrument features a tropicalized design, validated for material stability and dielectric performance in operating environments reaching up to 45°C and 90% non-condensing humidity.
Why Source from the OEM
Procuring directly from the OEM ensures vertical integration and adherence to the strict mechanical tolerances required for repeatable experimental data. Unlike third-party distributors, our facility manages in-house turbine balancing and precision dynamo calibration, ensuring batch-tested uniformity across large-scale institutional deployments. Direct factory sourcing provides immediate access to technical spares and manufacturer-level calibration data, maximizing the lifecycle of the laboratory investment and mitigating the risks associated with non-standardized educational equipment.
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