Our services are provided in partnership with Super Igloos Inc

Canadian Super Igloos                               
Defensive Structures for Unforgiving Environments
Freezer/Fridge/Dry Food Storage
Canadian Super Igloos Defensive Structures for Unforgiving Environments
PRESENTATION
Remember that the Opal™ components are all molded in 180mm thick polyurethane foam insulation. That alone achieves an R factor thermal rating of R-50. However, our self-supporting design and construction system uses no support framing (studs). As wood and steel are both very thermally conductive, they are responsible for a great portion of heat loss, or gain, and work against the structure. Divisions added internally keep separate areas at different temperatures very efficiently.

Welcome to Canadian Super Igloos And Global Super Igloos

Welcome to Canadian Super Igloos & Global Super Igloos Inc. 5 major manufacturing facilities location: Nigeria, Thailand, Ghana, Philippines & Indonesia.
Other Operations Warehouses in Sierra Leone, Lao People’s Republic, Liberia, Tanzania, Cyprus, Kenya, Benin Republic, Democratic Republic of Congo, Vietnam, Ivory Coast, Gambia, Senegal, Uganda and Zimbabwe.
CSI & GSI Sustainable Development Projects Outlines for impacting humanity and our diverse Communities in Africa and Asia:
1) International Airport Development
2) Hospitals & Clinics
3) Ambulance / Helicopter Clinics
4) Technology / Leisure Parks
4) Social Housing Schemes
5) Resorts / Floating Resorts
6) Schools, Classrooms & Hostels
7) Warehouses & Stage Facilities
Event Centers & Royal Halls
9) Training, Employment and Social Services.
10) Partnership & Joint Venture with Corporate and Government Entities.

 

Modular robotic building techniques can revolutionize mosque design and construction. Here’s a comprehensive overview
Benefits
1. Speed: Modular construction reduces build time by 50-70%.
2. Cost-effectiveness: Factory-built modules minimize on-site labor costs.
3. Quality: Controlled factory environment ensures high-quality construction.
4. Sustainability: Modular design optimizes material usage, reducing waste.
5. Flexibility: Easy disassembly and reassembly enable future expansions.

Modular Robotic Building Techniques
1. Prefabricated Modular Construction (PMC)
2. 3D Printing
3. Robotic Assembly
4. Modular Panelized Construction
5. Container-Based Modular Construction

Mosque Design Considerations
1. Symmetry and geometry
2. Minaret and dome design
3. Prayer hall layout
4. Courtyard and landscaping
5. Islamic architectural elements (e.g., arches, columns)

Modular Mosque Design Concepts
1. Modular Minaret: Prefabricated, stackable modules form the minaret.
2. Interlocking Prayer Halls: Modular units connect to create expansive prayer spaces.
3. Dome-Shaped Modules: 3D-printed or prefabricated modules form the dome.
4. Courtyard Modules: Prefabricated units create the courtyard and surrounding structures.
5. Portable Mosques: Container-based modular construction for temporary or emergency mosques.

Challenges and Opportunities
1. Integration with traditional architecture
2. Scalability and standardization
3. Material selection and sustainability
4. Community engagement and acceptance
5. Potential for innovative, futuristic designs

Key Players
1. Architects: Foster + Partners, Zaha Hadid Architects
2. Construction Companies: Vinci, Bechtel
3. Technology Providers: Robotics companies, 3D printing specialists
4. Islamic Architecture Experts: Specialists in traditional Islamic design