The Mirador del Palau de les Goges Project (I)

Creating habitable structures supported by poles and tensioned cables, similar to the design of suspension bridges, offers an innovative approach to modern architecture. The Mirador del Palau de les Goges Project is a perfect example of this concept. These structures rely on a central pole, often made of steel or reinforced concrete, firmly anchored to the ground. From the top of the pole, cables extend outward, securing the structure from multiple angles to maintain stability. This tensioned cable system provides flexibility and durability, allowing the structure to withstand environmental forces such as wind and moderate seismic activity.

This design maximizes open space within the structure, eliminating the need for multiple load-bearing walls or pillars, which creates spacious and airy interiors. Additionally, this technique reduces material usage, making it more sustainable. The Mirador del Palau de les Goges Project, like other cable-supported structures, is ideal for eco-tourism accommodations, observation decks, and even residential projects in compact spaces or environmentally sensitive areas where minimal land impact is essential.

Project and Draft for the Communications Tower at Platja de l'Almadrava (I)

This image features an ultra-tall, visually striking communications tower, rising 900 meters into the sky. The design is minimalist, with clean, smooth lines and a focus on simplicity, ensuring that only the essential elements are present. The tower is supported by a strong tripod base, emphasizing its sleek, elongated antenna that stretches vertically at the top. Despite its minimalism, the structure commands attention with its elegant appearance. The stark design contrasts sharply with the vast, empty landscape, underscoring the tower's immense scale and isolated presence. This striking visual captures the beauty and power of simplicity in modern architecture.

Neue Zentrale der Apothekerkammer Lübeck "outside" (I)

A 50-story cylindrical building designed as the new headquarters for the Lübeck Pharmacists Association. On the outside, the building’s facade is covered in a unique, twisted framework of tubes that wraps around it like a serpent, spiraling upward toward the top. This twisted framework creates a dynamic, flowing appearance along the exterior, leading to a crown-like feature at the building's summit. The futuristic design gives the structure an organic, sculptural quality, with the twisted tubes casting interesting shadows along the facade. Set against a modern cityscape, the building’s innovative architecture stands out prominently.

The Architectural Study for the Fusion of Bone Structures and Rhomboid Shapes (I)

The Architectural Study for the Fusion of Bone Structures and Rhomboid Shapes explores the intersection of organic and geometric forms, pushing boundaries between natural anatomy and abstract architecture. This study envisions a blend where the intricate, interlocking forms of bones meet the clean, angular precision of rhomboids. Bones, with their structural integrity and adaptability, reflect natural architecture, showcasing resilience and efficient use of material. Rhomboid shapes, in contrast, bring a sense of calculated symmetry, often seen in modern architecture, that conveys clarity and order.

The fusion of these two forms is both a technical and philosophical endeavor, suggesting a world where nature and human-made geometry don’t merely coexist but enhance each other. By incorporating the fluidity and resilience of bone-like forms with the stability and repetition of rhomboids, the study opens possibilities for new building techniques, materials, and aesthetics that echo organic strength and geometric refinement. This synthesis hints at future architectural innovations that are both functional and deeply harmonious with the natural world. 

Challenges and Experiences in Constructing and Living in Spherical Buildings (II)

 Costs and Urban Impact

The financial implications of building in a spherical form can be considerable. Since most materials must be custom-made or adapted, costs often skyrocket compared to standard construction. The unique shape also means that a larger amount of space might be required, as spheres do not utilize space as efficiently as other shapes, which can be challenging, especially in dense urban areas. Spherical buildings also bring aesthetic and functional challenges to cityscapes. Due to their distinct appearance, they can disrupt the visual harmony of an area, blending less easily into urban environments dominated by angular structures. However, when thoughtfully integrated, they can also serve as landmarks or symbols of innovation, adding a unique character to the skyline.