Scientific Research Facilities
McD BERL integrates sustainable technologies into scientific research facilities, optimizing CAPEX and supporting advanced operations. We reduce OPEX by enhancing energy and water efficiency, ensuring long-term operational excellence and sustainability.
Scientific research facilities face unique challenges in balancing the need for advanced technological infrastructure with sustainability goals. Achieving net zero energy, water, and carbon footprints in these high-demand environments often requires substantial capital expenditures (CAPEX) for specialized equipment, energy-efficient systems, and sustainable building materials. Furthermore, maintaining such facilities involves significant operational expenditures (OPEX) for energy, water, and waste management, all while ensuring uninterrupted research activities. Researchers and facility managers must navigate these complexities while adhering to stringent regulatory standards and maximizing the facility’s operational efficiency.
McD BERL, specializes in designing and implementing net zero solutions tailored to the specific needs of scientific research facilities. Our expertise ensures that CAPEX is optimized through the integration of sustainable technologies and materials that support advanced research operations. We enhance OPEX efficiency by implementing energy and water management systems that reduce consumption and operational costs. By partnering with McD BERL, research facilities can achieve their sustainability targets, comply with regulatory requirements, and maintain a high standard of operational excellence, ultimately supporting groundbreaking scientific work in an environmentally responsible manner.
- CMTI - Nano Manufacturing Technology Centre (NMTC)
- Transit Accomodation Block - Centre for Human Genetics
- National Center for Sustainable Coastal Management
CMTI - Nano Manufacturing Technology Centre (NMTC)
The CMTI Nano Manufacturing Technology Centre (NMTC) project involved providing MEP services with a focus on sustainability and advanced manufacturing requirements. Our team implemented energy-efficient HVAC systems, optimized electrical design, and cutting-edge facility management systems to support the high-precision needs of nano-manufacturing. This project exemplifies our commitment to integrating sustainable practices with the demands of modern technology-driven industries.
Transit Accomodation Block - Centre for Human Genetics
The Transit Accommodation Block at the Centre for Human Genetics in Bangalore is designed with sustainability and efficiency in mind. The building features energy-efficient systems, including solar panels and optimized HVAC, along with water-saving measures such as rainwater harvesting. The design also prioritizes natural lighting and ventilation, creating a comfortable and eco-friendly living environment for the residents.
National Center for Sustainable Coastal Management
The National Center for Sustainable Coastal Management (NCSCM) in Chennai is a state-of-the-art facility designed with a focus on environmental sustainability. The project features energy-efficient systems, including solar panels and optimized HVAC, along with advanced water management practices like rainwater harvesting and wastewater recycling. The design also emphasizes natural ventilation and lighting, creating a facility that aligns with the principles of sustainable development.