YAMUNANAGAR SPORTS COMPLEX DATA ON THE CASE STUDY
gurkamalkainth
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Nov 02, 2025
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About This Presentation
CASE STUDY ON SPORTS COMPLEX
Slide Content
YAMUNANAGAR SPORTS COMPLEX
Intro The Yamunanagar Sports Complex, commonly referred to as Tejli Stadium , is one of the primary district-level sports facilities in Yamunanagar , Haryana. The complex serves as a hub for sports training, local tournaments, and physical education activities. It caters to a range of outdoor sports such as athletics, football, cricket, kabaddi, and indoor games like badminton and table tennis. As a thesis case study, the complex provides valuable insights into cost-effective construction techniques, material selection suitable for a composite climate, and the integration of open-air and built sports infrastructure at a district scale.
Site Context Location: Tejli Stadium, Yamunanagar , Haryana Site Area: Approx. 8–10 acres (as per local sources) Coordinates: 30.13°N, 77.27°E Surrounding Context: Predominantly residential and institutional zones with schools and colleges nearby. Climate: Composite (hot summers, monsoon rains, and cold winters). Accessibility: Located near the main Tejli Road; well connected to city arteries and public transport. Design Implication: Climatic response and ease of accessibility influence material choice—lightweight roofing and natural ventilation are preferred due to high daytime temperatures and humidity in monsoon.
Functional zoning The sports complex is organized into clear functional zones: Outdoor Zone: Cricket ground, athletics track, football field, open courts. Indoor Zone: Multi-purpose hall for badminton, table tennis, and training. Spectator Facilities: Open stands, shaded pavilions, restrooms. Service Zone: Changing rooms, storage, administrative offices, and equipment areas. Landscape Zone: Peripheral green buffer and internal circulation paths.
Site planning The layout emphasizes open visual connectivity between different fields, with pedestrian circulation along the periphery. The cricket/football field acts as the visual focus, surrounded by tracks and small practice zones. Minimal built-up footprint ensures maximum open play area. Orientation: Major playfields oriented north-south to reduce glare. Wind Direction: Utilized for natural ventilation in pavilions. Drainage: Site is naturally sloping; open drains and soak pits are used for stormwater management.
Material Study- Structure Materials
Material Study- Finishing Materials Plaster & Paint: Cement plaster with acrylic exterior paint. Floor Finishes: Vitrified tiles for interiors, non-slip cement finish in circulation, turf for outdoor grounds. Spectator Seating: Cast-in-situ concrete steps with protective coating. Roof Insulation (recent upgrades): Some portions use aluminium foil insulation under GI sheets.
Bulding Services Lighting: Floodlights mounted on RCC/steel poles; LED fixtures in indoor areas. Ventilation: Natural cross-ventilation through louvered openings and roof vents. Water Supply: Borewell and municipal supply for turf irrigation and sanitation. Drainage: Open surface drains and recharge pits. Power Supply: From city grid; scope for solar integration on pavilion roofs.
Sustainability and energy efficiency
Observed Issues & Limitations Excessive heat gain under GI roofing during summer. Corrosion in exposed steel trusses and fixtures. Inadequate shading for spectators. Poor drainage in some low-lying play areas. Lack of advanced playing surfaces (synthetic tracks, modular flooring).
Inferences for Architectural Thesis Architectural Learnings: Integrate lightweight, thermally efficient roofing (e.g., tensile fabric or insulated sandwich panels). Redesign spectator stands with ergonomic seating and shading structures. Introduce phased development —allow future expansions while keeping core usage functional. Emphasize sustainable water and energy systems —greywater reuse, solar power, green buffers. Encourage community integration —convert the complex into a multi-use urban open space.
Conclusion The Yamunanagar Sports Complex is a typical example of a functional, resource-conscious public sports facility built with conventional Indian construction techniques. Its simplicity offers valuable architectural insights: how to balance economy, durability, and user comfort. A future redevelopment or thesis proposal can evolve this model into a sustainable, multi-sport, and climatically responsive campus , showcasing how small cities can develop inclusive sports infrastructure with improved material strategies.
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