About Us
Our Mission & Operations
CECIPL works on core areas including wastewater (gray and black), raw water, and energy optimization. Our goal is to achieve required standards as per statutory and regulatory norms while minimizing environmental impact.
We believe that climate change mitigation processes must be pillared on the synergy between energy and water. By optimizing these two critical resources, we contribute significantly to global food security and sustainable urban development.
2Degree Climate Control (2DCCPL)
Our parent company, 2Degree Climate Control Private Limited (2DCCPL), works on a larger spectrum of environmental restoration and climate resilience:
- River Rejuvenation
- Pond Reclamation
- Canal Rejuvenation
- Leachate Management
- Thermo-Demographic Cities
Dr. Sanju Thomas
Pioneering Sustainable Energy & Water Systems
Dr. Sanju Thomas has been at the forefront of energy-water management since 1998. His extensive experience spans across various sectors, making him a key figure in the industry.
He has been instrumental in developing mitigation-adaptation strategies to address energy surge and climate change. Throughout his career, he has worked with BiG5 consultants and headed prominent NGO groups in the energy sector.
Under his leadership, CECIPL continues to innovate and implement sustainable engineering solutions that address the complex challenges of modern infrastructure.
Technology & Approach
We leverage advanced engineered technologies and natural bioremediation to deliver superior water treatment solutions.
MBBR
Moving Bed Biofilm Reactor for highly efficient biological wastewater treatment.
MBR
Membrane Bioreactor for high-quality, reusable ultra-filtration effluent.
SBR
Sequencing Batch Reactor for flexible, batch-wise wastewater processing.
ABR
Anaerobic Baffled Reactor for effective sludge stabilization and treatment.
Natural Bioremediation
We specialize in natural bioremediation processes, seamlessly integrating them into conventional primary, secondary, and tertiary stages of treatment. This hybrid approach ensures maximum efficiency with minimal chemical usage.