Water Treatment Management

Water supply management

The water used to supply modern processes and utilities speaks to the largest water-related consumption at an industrial site. Differentiating water resources while securing reliable water supplies contributes to reducing the water footprint of industrial activities.

Ensure the water supply is reliable in terms of quality and quantity

Groundwater sources can be tapped by different techniques, for example, shafts, boreholes, drainage tunnels, etc. These catchments empower numerous industrial sites to reduce their dependency on external water supplies.

We convey consulting services and curative operations to build or maintain water catchments:

Technical and regulatory design for borehole drilling:

We carry out feasibility studies (assessment of accessible volume of resource, specialized details for borehole) and deal with the drilling project declarations.

Smart catchment management:

Instrumentation and observing, Indicator estimation, Data investigation, Additional diagnostic.

Regeneration of boreholes:

Mechanical, synthetic or biological blockages are potential reasons for borehole malfunction. We convey solutions utilizing mechanical or chemical treatments.

Prevention of drainage areas:

Catchments can be presented to occasional or widespread contamination. We convey choice guide devices used to analyze and demonstrate the contamination sources and aid with sending an expert quality plan to screen the quality of the water table.

Adapt treatments to water usage:

Controlling the quality of water in processes is a is a source of value generation for industries. Intended for product manufacture or equipment operation, water requires different quality levels depending on its utilizations.

We help industrial operators in differentiating and enhancing their water resources, whether for treatment, supply, or reuse:

Optimize resource management:

From counseling to services, we meet your necessities to improve and enhance water resources inside your plant, to:

  1. Control the water quality on new sources of supply, specifically suspended solids, turbidity, polluting agents, nitrates, metals, minerals, colloid index.
  2. Treat wastewater for additional utilization, considering suspended particulate standards, natural contamination, salt content and toxicity.

Comply with health regulations and restrictions:

The technical combinations we design and construct empower you to determine and control exact quality models for the water you incorporate into your items:

  1. Suspended particulates
  2. Metals
  3. Micro-organisms
  4. Organic polluting agents

Ensure resource accessibility and u reliability of production:

The innovation and services we give ensure the quality and amount of water required, whatever the source of supply to produce heat.

  1. Suspended solids, salt content and scale development in make-up water
  2. Corrosion in water supply organizations
  3. Corrosion and pollution in condensate recovery
  4. Variation of concentration and heat losses in drainage water

Sewage and Effluent Treatment Plants

Domestic and Industrial sites create wastewater which critically requires appropriate treatment. This is to ensure that their activities cause no damage to the natural environment. The nature of industrial effluents is their diversity. Treatment processes must therefore be adapted to each industry.

RESOURCE proposes nearby and off-site solutions that can deal with a wide variety of contaminating specialists by adjusting to the design of each site.

Treatment of enormous variety of effluents to secure resources.

We prescribe treatment processes that are fit to the nature of the effluents, we decide revenues of optimization and deliver facility operation and maintenance based on best practices.

Sewage treatment is the process of removing contaminants from sewage water (runoff effluents and domestic effluents). It incorporates physical, chemical, and biological processes to eliminate physical, chemical, and organic pollutants. Its goal is to produce environmentally safe treated water and a treated solid waste suitable for disposal or reuse as manure.

Sewage treatment generally involves three stages,

  1. Primary Treatment
  2. Secondary Treatment
  3. Tertiary Treatment

Sewage treatment is designed using the following methods

  1. Extended aeration with Activated sludge process
  2. Sequential Batch Reactors (SBR)
  3. Membrane Bio-Reactor (MBR) Technology
  4. Fluidized Bed Bio-Reactor Process (FBBR)
  5. Moving Bed Bio Reactors (MBBR)

Industrial wastewater contains a diversity of impurities and therefore for this reason alone, its treatment constitutes a special task. Furthermore, the emission limits for industrial effluent are constantly being tightened up. Closed circuits and product recovery in various production processes are becoming an increasing priority among manufacturing companies. These measures represent an additional contribution to the protection of aquatic eco-systems and possess great cost-cutting potential. The treatment process contains mechanical, biological, and physio-chemical process steps.

In the case of biological, anaerobic wastewater treatment we employ conventional processes and space-saving, high-performance reactors such as the world’s most frequently used UASB process. Other systems are also utilized in accordance with the characteristics of the wastewater, e.g. the activated sludge process or physical treatment using Lamella clarifiers for our system for less polluted water/high concentrated effluent. In the case of maximum cleaning requirements (e.g. water reuse) we employ membrane processes with submerged or external membranes. The advantages are considerable savings of liquid resources and practically zero discharge of wastewater.

Following processes are used:

  1. Aerobic biological processes
  2. Anaerobic biological processes
  3. Physio – Chemical processes

Zero Liquid systems eliminate liquid waste streams from your plant and produce high purity water for reuse. Certain factors make water a valuable resource and therefore it is considered a key manufacturing resource. Hence installing a ZLD system would maximize water recycles.

The ZLD system provides an economical solution to all industries which must compete with local water availability, water costs and wastewater discharge criteria.

The ZLD system combines several wastewater treatment technologies, including sanitary collection, biological water treatment, Ultra Filtration, Micro filtration, RO water recycling and evaporation ponds/Mechanical Evaporators. These systems recycle waste streams such as:

  1. Boilers blow down
  2. Cooling Tower blow down
  3. RO reject
  4. DM regeneration waste
  5. Softener regeneration waste
  6. Filter backwash
  7. Plant drains

Zero Liquid Discharge System is a fully integrated automated system incorporating a mechanical evaporator and solids de-watering. We can recover 95 to 99 percent of wastewater as high-purity distillate (< 10 mg/1 TDS). High purity distillate produced in this system can be used for cooling tower or boiler makeup water.

Notably, the ZLD reduces water supply costs given that Industries no longer must purchase as much fresh water for manufacturing.

RESOURCE provide, design reliable, cost-effective systems that give you maximum benefits like,

  1. Energy efficiency
  2. Ease of operation
  3. Maxima recycle