Located along Beirut’s marina, Le Pélican Yacht Club is a carefully curated venue that merges minimalist design with warm Mediterranean character. Conceived by architect Antoine Maalouf, the space reflects a consistent architectural language open: layouts, natural materials, and soft visual continuity throughout. Every design element, from finishes to lighting, contributes to a quiet elegance where function and form are equally prioritized.
In such an environment, sound integration is more than a technical requirement: it is about preserving visual harmony while providing a clear and uniform sound. The room needed a system capable of maintaining acoustic coherence without altering the architectural intent. To achieve this, Eltek, our renowned distributor in Lebanon, installed eight Lynx Pro Audio BS-8 loudspeakers were installed in the main interior areas.
The BS-8 is a compact passive full-range speaker designed for indoor fixed installations, especially in venues that demand both acoustic accuracy and visual subtlety. Each unit features an 8” low-frequency driver and a 1” compression driver mounted on a 90° x 60° constant directivity horn. With a sensitivity of 93 dB, the BS-8 provides sufficient output with a limited number of sources ideal for reducing hardware visibility in architecturally sensitive settings.
In this installation, all units were mounted at ceiling level using discreet brackets, allowing the system to blend seamlessly into the architectural framework without drawing visual attention. As a trusted expert audio-solution provider, Eltek has crafted a system that stays practically invisible while delivering natural, intelligible coverage throughout the dining areas.
Eltek’s installation at Le Pélican Yacht Club demonstrates how a system built around clear acoustic planning and appropriate loudspeaker selection such as the BS-8 by Lynx Pro Audio can deliver a high level of performance without compromising architectural integrity. It is a model of how professional audio systems can be applied with restraint and precision in design-driven environments.
