Solution Space
You will find all information regarding the goal, the requirements and the potential partner profile.
Goal
The goal of this project is to identify and validate next-generation silencing solutions for large axial fan installations in noise-sensitive environments. Each solution should:
- Deliver a step-change in noise reduction versus today’s common silencer concepts.
- Preserve overall system performance, by keeping efficiency impacts (especially added pressure losses) as low as possible.
- Improve deployability, e.g., through lower weight, smaller footprint, and easier installation/handling in outdoor settings.
- Enable a realistic Proof of Concept, with comparable validation in an ebm-papst test environment.
The project aims to create solutions that are technically robust, commercially promising and suitable as the basis for a long-term venture partnership in future advanced silencing solutions.
Solution Requirements
These requirements serve as orientation. Not all criteria must be fully met from day one.
Functional Requirements - the solution should:
- Achieve ~10 dB noise reduction as a strong PoC-level result.
- Provide a credible path toward ~15 dB noise reduction as the target (with 15–20 dB considered highly attractive).
- Deliver these gains without “blocking the flow”—i.e., not by simply adding extreme restriction as the main mechanism.
- Work as a standalone silencing concept or as part of a hybrid setup (e.g., passive + active elements), as long as it is feasible at scale.
Technical Requirements
- Keep additional pressure loss as low as possible so overall fan/system performance does not degrade noticeably (exact threshold depends on application; expect a noise-vs-pressure-loss trade-off assessment).
- Integrate with large axial fan setups via a clear interface / mounting concept and a defined installation configuration.
- Be measurable and comparable: noise reduction and efficiency impacts must be quantifiable in a way that allows fair benchmarking.
- Address key engineering constraints such as structural loads, vibration, durability, and safe operation.
- Be scalable across fan sizes (a solution that works on one diameter should have a plausible scaling logic).
Operational Requirements - the solution must:
- Be meaningfully lighter and easier to handle than common incumbent silencers (today often ~100 kg, crane-handled, bulky “chimney” add-ons).
- Be suitable for outdoor operation (weather exposure, durability, practical maintainability).
- Offer a realistic path to manufacturing and supply (in-house or via industrial partners), especially if the aim is a deployable product within ~2 years.
- Be compatible with typical project deployment realities (installation and logistics must be practical for customer environments).
ROI Requirements - the solution should:
- Create a clear value case through a combination of noise reduction performance, lower total cost, and reduced installation/logistics effort.
- Show how cost drivers (materials, manufacturing complexity, installation effort) compare to today’s typical silencer designs.
Partner Requirements
- We welcome early-stage and mature providers—from startups to established players—as long as you can deliver testable evidence within the PoC timeframe (simulation + measurable test concept, and ideally prototypes/samples for joint measurement).
- For solutions aiming at industrial deployment, a credible manufacturing/scale-up path (in-house production or industrial partners) is a strong plus.
You should further:
- Be willing to collaborate closely with ebm-papst experts and iterate on requirements during the process
- Be open to a structured PoC collaboration model (paid PoC possible; commercial model defined based on results).
