The primary objective of this project was to develop a sustainable and user-centered solution that supports mental well-being in modern work and learning environments. This objective was successfully achieved through the design of Bloem, an egg-shaped relaxation capsule that combines acoustic insulation, privacy and digital well-being features. Throughout the project, the team conducted market research, competitor analysis, technical development and sustainability assessments to create a concept that addresses the growing demand for dedicated microbreak spaces. The final outcome includes a complete product concept, a detailed 3D model, technical drawings, a prototype, a business model and a marketing strategy. The project also successfully integrated several key requirements identified during the preliminary studies, including acoustic separation from the surrounding environment, sustainable material selection, passive ventilation, user comfort and digital support through guided relaxation content and a reservation system. Although the main objectives were achieved, some aspects could not be fully validated within the timeframe and resources available for the project. In particular, comprehensive acoustic measurements, long-term user testing and full-scale industrial production validation were beyond the scope of this project.

Identify here the limitations of the solution and prototype.

Although BloomShell successfully demonstrates the feasibility of a dedicated microbreak capsule for modern workplaces, several aspects can be further developed and validated in future iterations. A primary area for improvement is acoustic performance. While the current design utilizes a multi-layer wall system consisting of cork, hemp, and wood, future prototypes should undergo professional acoustic testing to quantify sound insulation and identify opportunities for further optimization. This would ensure that the capsule provides a consistently quiet environment even in highly dynamic office settings. Another important development concerns the ventilation system. The current concept relies on passive airflow through strategically positioned openings. Future versions could integrate smart ventilation solutions with air quality and CO₂ sensors to automatically regulate airflow while maintaining acoustic comfort. The digital ecosystem surrounding Bloem also offers significant potential for expansion. Future developments may include personalized user profiles, integration with corporate wellness platforms, usage analytics and AI-supported recommendations for relaxation exercises, breathing techniques, or guided meditation sessions tailored to individual needs. From a manufacturing perspective, additional work is required to optimize the structure for large-scale production. This includes refining the joinery system, reducing assembly time and further improving the flat-pack packaging solution to minimize transportation costs and environmental impact. Finally, long-term user studies should be conducted to evaluate the effectiveness of Bloem in reducing stress, improving well-being and increasing workplace satisfaction. Such studies would provide valuable data to support future product development and strengthen the business case for implementation in offices, coworking spaces, universities and other shared environments.