
Typical applications for engine lubrication pumps
Where TPV engineering supports reliable oil supply for modern combustion engine architectures.

Seamless Integration Options
We adapt the pump concept, housing, and drive interface to your engine architecture, oil circuit, and available packaging space.
Why choose Engine Lubrication?
Engine oil pump systems must provide reliable lubrication from start-up to full-load operation while supporting efficiency, packaging, and durability targets.
From requirements to validated prototypes
A clear workflow tailored to your application, covering concept development, simulation, prototyping, validation testing, and series ramp-up with production partners.
Requirements
Kick-off & application review
Requirement specification + application targets
Concept
System layout & gear set design
3D design + initial drawings
Simulation
Hydraulic calculations & CFD
Hydraulic performance data + simulation results
Prototyping
Prototype manufacturing
Functional prototypes for test bench validation
Validation
Prototype test rig optimization
Validated pump system ready for production preparation
Series
Ramp-up with production partners
Series-ready production setup with established partners
Validated Quality
Every prototype is optimized on our prototype test rig for low power consumption, low pressure pulsation, and low noise behavior. Conventional oil pump prototypes are typically available within 3–4 months after design freeze and are 100% tested with full test reports.
FAQs
Quick answers to common questions about oil pump custom development, timelines, validation, and how we support series ramp-up through production partners.
Engine lubrication pumps supply oil to critical engine areas such as bearings, crankshaft, valvetrain, timing components, and cooling circuits. Their main function is to maintain reliable lubrication across speed, load, and temperature conditions.
Yes. TPV develops custom pump concepts adapted to the available engine architecture, drive interface, oil circuit, and packaging space.
No. Depending on the engine concept, pumps can be crankshaft-mounted, chain-driven, gear-driven, or integrated into oil sump, front cover, or module-based layouts.
By optimizing displacement, leakage gaps, tooth geometry, and pressure behavior, the pump can reduce unnecessary drive losses while maintaining stable oil supply.
NVH is important because oil pump gearing can contribute to airborne noise, structure-borne vibration, and pressure pulsation. Optimized gear geometry helps reduce these effects.
No. TPV focuses on custom-engineered oil pump systems. The design is developed around the technical requirements of the engine, not as an off-the-shelf component.


