In the heart of academic innovation, a groundbreaking study is reshaping how we approach architectural rehabilitation, with significant implications for the energy sector. Delia Andreea Rusan, a visionary in the field, has leveraged 3D modeling to propose transformative solutions for non-functional spaces within the Faculty of Aerospace Engineering. Her work, published in the *Journal of Industrial Design and Engineering Graphics* (translated from Romanian as *Journal of Industrial Design and Engineering Graphics*), is not just about revitalizing old structures; it’s about reimagining their potential.
Rusan’s research begins with a meticulous 3D model of a building within the Faculty of Aerospace Engineering, crafted using Autodesk Revit. This digital twin serves as a canvas for innovation, allowing her to visualize and plan design interventions with unprecedented precision. “The 3D model is more than a tool; it’s a catalyst for creativity,” Rusan explains. “It enables us to see beyond the physical constraints of the existing structure and envision spaces that are both functional and inspiring.”
The focus of her study is the rehabilitation of non-functional spaces, a challenge that resonates across industries, including the energy sector. By applying a thoughtful interior design approach, Rusan demonstrates how these spaces can be transformed into hubs of productivity and collaboration. Her chosen design style and principles are not just about aesthetics; they’re about creating environments that enhance user experience and energy efficiency.
The implications for the energy sector are profound. As buildings account for a significant portion of global energy consumption, the rehabilitation of non-functional spaces presents a unique opportunity to improve energy efficiency and reduce carbon footprints. Rusan’s work showcases how modern digital tools can play a pivotal role in this endeavor. “The integration of 3D modeling in architectural rehabilitation is a game-changer,” she asserts. “It allows us to optimize space usage, improve energy performance, and create sustainable, future-ready environments.”
This research is not just about the present; it’s about shaping the future. As we grapple with the challenges of climate change and energy conservation, the insights from Rusan’s study offer a beacon of hope. They underscore the importance of embracing digital tools and innovative design principles in our quest for sustainable development.
In the words of Rusan, “The future of architectural rehabilitation lies in our ability to blend technology, creativity, and sustainability. It’s about creating spaces that not only serve their purpose but also contribute to a greener, more energy-efficient world.” Her work is a testament to this vision, paving the way for a new era of architectural innovation.