Expertise

CETPs

Common Effluent Treatment Plants

We have a proven track record in designing and implementing Common Effluent Treatment Plants (CETPs) across India.

Our expertise in this field began in 1992 with the design of our first CETP for a cluster of tanneries in Unnao, Uttar Pradesh. Since then, we have continued to lead in this domain, with our most recent project being a CETP for a cluster of API-Bulk Drug units in Hyderabad.

Some of our notable projects include:

CETP at SEZ, Mangalore, Karnataka: Heterogeneous Type
CETP at APIIC, Nakkapally, Andhra Pradesh: Homogeneous Type - API
CETP at APIIC Naidupeta, Andhra Pradesh: Heterogeneous Type
CETP at HIDC Kundli, Haryana: Heterogeneous Type
CETP at MIDC Kurkumbh, Maharashtra: Homogeneous Type - Chemical

ZLD

Zero Liquid Discharge

In today’s regulatory environment, industries are increasingly required to adopt Zero Liquid Discharge (ZLD) systems. This mandates that no wastewater is discharged into land, inland water bodies, or marine outfalls. By implementing ZLD, industries can recover and reuse all water within their operations, significantly reducing their overall water demand and promoting sustainability.We have extensive experience in designing and implementing ZLD systems across various sectors in the country. Our solutions have been successfully applied to coffee processing units, Common Effluent Treatment Plants (CETPs), API units, and solar wafer manufacturing units. Our expertise ensures that industries can meet stringent environmental regulations while optimizing their water management practices.

Water Mgmt

Overall Water Management

Our approach ensures a sustainable and effective water management strategy, tailored to meet the specific needs of each client encompassing the following key elements:

Assessing Water Demand and Usage: Evaluating the total water requirements and how it is utilized across processes.
Water Treatment: Implementing treatment processes to meet specific quality standards.
Waste Minimization, Recovery, Reuse, and Recycling: Focusing on reducing waste generation and maximizing the recovery, reuse, and recycling of resources.
Wastewater Treatment: Applying physiochemical and biological methods to effectively treat wastewater.
Membrane Processes: Utilizing advanced membrane technologies to recover water for reuse.
Evaporation Systems: Employing evaporation techniques for water recovery and salt separation.
Management and Disposal of Residuals: Efficiently managing and disposing of residual waste in an environmentally responsible manner.
Process Optimization: Integrating and optimizing all these processes as a cohesive package for enhanced efficiency and sustainability.

Upgradation

Evaluation and Upgradation of Existing Treatment Plants

As standards become more stringent and flows increase due to expansion, upgrading existing treatment facilities becomes crucial. These upgrades are essential to accommodate enhanced capacities and meet evolving regulatory standards. Our process for upgrading facilities is as follows:

Study the Existing Facility: Assess the current facility and its capacity to handle existing loads.
Analyze Enhanced Loads and Standards: Evaluate the increased loads and the new standards that must be met.
Design the Upgradation: Develop a design to upgrade the facility, maximizing the use of existing infrastructure.
Integrate Upgrades: Incorporate the best suitable technologies to enhance efficiency, integrating them with the existing facility.
Commission the System: Execute the commissioning of the upgraded system as a cohesive unit.
This approach ensures a seamless transition to meet higher demands and regulatory requirements effectively.

Skill Dev

Training and Skill Development

We offer comprehensive training programs in various aspects of water and wastewater management, including:

Water Treatment: Techniques and technologies for effective water purification.
Wastewater Treatment: Methods for treating and managing wastewater.
Sewage Treatment: Processes and technologies for treating sewage.
Unit Operations in Treatment Processes: Detailed training on specific operational units within treatment facilities.
Design: Principles and practices of designing treatment systems.
Available Treatment Technologies: Overview of current and emerging technologies in the field.
Operation & Maintenance (O&M): Best practices for the effective operation and maintenance of treatment systems.
Troubleshooting: Techniques for identifying and resolving issues in treatment processes.
Our training programs are designed to equip participants with the knowledge and skills necessary for effective water management and treatment.

Detailed Engineering

Detailed Engineering Expertise

As part of our comprehensive engineering services, we provide tailored solutions to meet our clients' specific needs:

Plant Layout: Designing the optimal arrangement of plant components for efficiency and functionality.
Hydraulic Flow Design: Developing hydraulic systems to ensure effective flow management and pressure control.
Structural Design: Creating robust structural designs to support plant infrastructure and equipment.
General Arrangements: Planning the overall arrangement of equipment and systems within the facility.
Pipeline Design and Routing: Designing and routing pipelines for effective fluid transport and distribution.
Our detailed engineering approach ensures that every aspect of the plant is meticulously designed and optimized for performance and reliability.

WATER & WASTEWATER SOLUTIONS