The NET ZERO Hub is a forward-thinking public facility designed for complete autonomy from external infrastructure, especially in times of crisis. The building integrates renewable energy through the use of monocrystalline solar panels and Rutland 504 wind turbines, producing a combined ~12.5 kWh/day. A Building Management System (BMS) helps optimize consumption, and smart technologies such as motion-sensor LED lighting and heat-recovery HVAC systems ensure operational efficiency. Water conservation is achieved through rainwater harvesting, biological treatment, and greywater reuse, reducing usage from 2,375 to 972.5 liters/day. To further improve resource management, it is recommended to integrate battery storage systems to ensure energy availability during low-production periods and expand water recycling to include blackwater treatment for complete water loop closure.
Functionally, the Hub is designed as a three-level structure with adaptive zoning that allows spaces to shift between residential, educational, and emergency uses. Built with eco-friendly wood and insulated glazing, the structure offers both sustainability and thermal comfort. The inclusion of a mini-library, learning zones, and community spaces enhances public engagement and skill-building for resilience. To maximize the educational and outreach impact, it is recommended to incorporate interactive digital displays and real-time environmental dashboards to communicate performance metrics and sustainability concepts to visitors. These additions would elevate the Hub from a sustainable building to a living educational tool and policy model aligned with SDGs 4, 7, 11, and 13.
ZERO-NET HUB
Idea projektu
The NET ZERO Hub project is developed to create an independent, self-sufficient public center capable of operating in times of crisis without relying on external infrastructure. This hub integrates innovative solutions in sustainable architecture, renewable energy, adaptive spatial planning, and environmental education. It serves as a space for learning, community interaction, skill-building for resilience, and social cohesion. The objective is to design a structure that merges energy, water, and food cycles to enhance the resilience of urban environments and facilitate adaptation to climate change. The center directly supports several UN Sustainable Development Goals: SDG 7 (Affordable and Clean Energy) SDG 11 (Sustainable Cities and Communities) SDG 13 (Climate Action) SDG 4 (Quality Education) This project is not only an architectural response but also an educational platform that empowers citizens with independence, adaptability, and ecological responsibility.
Popis projektu
The Scope of the NET ZERO Hub Project Solution involves a multi-dimensional approach to building a sustainable public facility capable of autonomous operation. The project covers the following key areas: Architectural Design Development of a three-level building with vertical zoning, incorporating residential, educational, administrative, commercial, and utility spaces. Energy Independence Installation of solar panels and wind turbines, detailed energy consumption analysis, integration of smart building systems and energy-efficient lighting. Water Resource Management Reduction of daily water use, implementation of greywater recycling, and installation of rainwater harvesting and treatment systems. Adaptive Zoning Flexible spaces designed to switch between educational use, shelter, or urban farming, depending on emergency or seasonal needs. Social Integration and Education Incorporation of a mini-library, multipurpose halls, and learning zones focused on self-sufficiency, energy literacy, and sustainable practices. Alignment with Sustainable Development Goals (SDGs) Implementation of local solutions that directly support SDGs 4 (Quality Education), 7 (Clean Energy), 11 (Sustainable Cities), and 13 (Climate Action).
Technické informácie
The NET ZERO Hub project employs advanced technologies combined with eco-friendly materials and engineering systems to achieve building self-sufficiency. The main technical specifications include: 1. Structural Design Construction material: low thermal conductivity wood Architecture: three-story building with a basement level Total site area: 10,030 m² Thermal insulation: triple-glazed windows, insulated frames 2. Engineering Infrastructure Utilities: access to electricity, gas, water, and sewage within 2–3 meters of site Water supply: internal filtration and rainwater harvesting systems Wastewater: biological treatment and greywater reuse 3. Energy System Solar panels: Monocrystalline (Mono-Si), 4 units, generating 4.9 kWh/day Wind turbines: Rutland 504 Windcharger, 42 units, producing 7.56 kWh/day Total estimated output: ~12.5 kWh/day BMS: Building Management System for energy optimization 4. Smart Technologies Lighting: LED with motion and occupancy sensors HVAC: smart temperature/humidity sensors and heat recovery systems Monitoring: real-time control of all critical technical parameters 5. Water Conservation Daily usage before upgrade: 2,375 liters/day After upgrade: 972.5 liters/day Yearly savings: over 511,000 liters
Mohamed Abdelkader Atiaa Aboelnasr, Ebram Samuel Habashi, Abdelmoez Waleed Ali, Abanob Karim Abad, Saja Mohammed Al-onizan
Helwan University in Zamalek, Department of Architecture of the Faculty of Fine Arts, Cairo
Egypt
Architektúra
Projekt odovzdaný
28. 05. 2025Štítok
Architektúra
Exhibition Center
Office
Showroom
Supermarket
Cultural Center
Other
Community Center
Playground
Parks
Public spaces
Gardens
Multi Unit Housing
Rady študentom
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