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Casa Tequila
Casa Tequila is a high-end residential project located in Gujarat, India, designed to blend modern spatial planning with regional sensibilities. As an architectural intern, I was extensively involved in all phases of the design and documentation process, from early concept development to detailed construction drawings.
The project features a multi-level layout that balances privacy and openness through courtyards, staggered volumes, and carefully orchestrated light. My responsibilities included:
Developing 3D models and visualizations to communicate spatial intent.
Preparing working drawings for structure, electrical, and plumbing coordination.
Assisting in material selection and interior detailing.
On-site support and coordination with consultants and contractors.
Working closely with the lead architect, I contributed to refining spatial layouts, resolving design challenges, and ensuring that the project maintained its design integrity through to execution. This hands-on experience gave me valuable exposure to the realities of residential construction, client interactions, and site-specific design strategies in a real-world architectural context.
The project features a multi-level layout that balances privacy and openness through courtyards, staggered volumes, and carefully orchestrated light. My responsibilities included:
Developing 3D models and visualizations to communicate spatial intent.
Preparing working drawings for structure, electrical, and plumbing coordination.
Assisting in material selection and interior detailing.
On-site support and coordination with consultants and contractors.
Working closely with the lead architect, I contributed to refining spatial layouts, resolving design challenges, and ensuring that the project maintained its design integrity through to execution. This hands-on experience gave me valuable exposure to the realities of residential construction, client interactions, and site-specific design strategies in a real-world architectural context.
Windows of Future
Windows of Future is a circular design exploration that reimagines windows not just as passive architectural elements, but as active components in a building’s material and carbon loop. Developed under the “New Narratives for Circularity” studio, the project investigates how window systems can be modular, repairable, and reusable, extending their life span across multiple buildings and contexts.
Using Life Cycle Assessment (LCA) tools, the design team evaluated the environmental impact of various window assembly choices, focusing on material sourcing, embodied carbon, and end-of-life strategies. By comparing conventional window components with circular alternatives (e.g., bio-based insulation, demountable frames, recyclable glazing), the team was able to quantitatively reduce carbon emissions across the window’s life cycle.
The final proposal emphasizes:
Design for Disassembly: every part of the window can be removed, replaced, or reused without damage.
Carbon-Conscious Material Selection: minimizing high-impact materials like aluminum and maximizing low-carbon solutions.
Digital Fabrication & Traceability: embedding QR-coded lifecycle data for future reuse planning.
Through this lens, Windows of Future contributes to a broader shift in architecture, from static construction to adaptive circular ecosystems, where even the most overlooked components carry the potential for transformation and impact.
Using Life Cycle Assessment (LCA) tools, the design team evaluated the environmental impact of various window assembly choices, focusing on material sourcing, embodied carbon, and end-of-life strategies. By comparing conventional window components with circular alternatives (e.g., bio-based insulation, demountable frames, recyclable glazing), the team was able to quantitatively reduce carbon emissions across the window’s life cycle.
The final proposal emphasizes:
Design for Disassembly: every part of the window can be removed, replaced, or reused without damage.
Carbon-Conscious Material Selection: minimizing high-impact materials like aluminum and maximizing low-carbon solutions.
Digital Fabrication & Traceability: embedding QR-coded lifecycle data for future reuse planning.
Through this lens, Windows of Future contributes to a broader shift in architecture, from static construction to adaptive circular ecosystems, where even the most overlooked components carry the potential for transformation and impact.
Working Drawings
This collection showcases a series of detailed architectural working drawings developed across various academic and professional projects. These drawings demonstrate my proficiency in translating design intent into buildable detail, aligning spatial vision with technical execution.
The set includes:
Plans, Sections, and Elevations with accurate dimensions and material annotations.
Wall sections, foundation details, and roof junctions showing structural and envelope logic.
Plumbing, electrical, and HVAC layouts coordinated across disciplines.
Door-window schedules, staircase details, and toilet layout drawings adhering to local codes and ergonomic standards.
Construction drawings for residential, public, and experimental projects, each tailored to site conditions, material systems, and user needs.
Prepared using AutoCAD, Revit, and Rhino, these drawings reflect a command over line weights, layer conventions, and technical clarity, essential for communicating with contractors, consultants, and on-site teams. In internship settings, I contributed to GFC (Good for Construction) sets, helping bridge design to execution.
The set includes:
Plans, Sections, and Elevations with accurate dimensions and material annotations.
Wall sections, foundation details, and roof junctions showing structural and envelope logic.
Plumbing, electrical, and HVAC layouts coordinated across disciplines.
Door-window schedules, staircase details, and toilet layout drawings adhering to local codes and ergonomic standards.
Construction drawings for residential, public, and experimental projects, each tailored to site conditions, material systems, and user needs.
Prepared using AutoCAD, Revit, and Rhino, these drawings reflect a command over line weights, layer conventions, and technical clarity, essential for communicating with contractors, consultants, and on-site teams. In internship settings, I contributed to GFC (Good for Construction) sets, helping bridge design to execution.
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