The concept of the eco-tech pavilion aligns with urban design’s commitment to sustainability within the unique context of Nordicity, characterized by prolonged winters and a focus on environmental resilience. This research explores the potential of eco-tech pavilions as a solution to urban challenges in Nordic regions, particularly focusing on the winter climate. Using content analysis as a generative method, the central inquiry of this study revolves around how integrating elements of Nordicity into an eco-tech pavilion's design can enhance socio-environmental sustainability during the winter months. To address this question, a thorough literature review methodology is adopted, involving the collection of a comprehensive dataset from existing scholarly works, employing content analysis methods, and utilizing Leximancer software for deeper insights. The aim is to uncover design patterns and conceptual guidelines for eco-tech pavilions tailored to nordic requirements. Subsequently, a research-through-design (RtD) approach is initiated, utilizing 3D software (Rhino) and rendering techniques (Lumion) to propose a conceptual design. The study’s findings underscore the importance of an integrated approach to two pivotal criteria: designing for locality and climate resilience. For example, incorporating design elements such as spherical structures, active solar heating and natural light distribution can significantly boost the eco-tech pavilion’s energy efficiency. Furthermore, strategic design features such as expansive windows and biophilic interior designs can collectively contribute to enhancing well-being and fostering community engagement. By advocating for an integrated approach to the conceptual design of an eco-tech pavilion, this research contributes to the ongoing discourse on sustainable urban development within nordic contexts, aiming to improve socio-environmental sustainability.

Keywords: Eco-tech pavilion; Socio-environmental design; Nordicity; Sustainability; Community wellbeing; Content Analysis; Research through Design