Water and Wastewater Studies
Wastewater monitoring for compliance for discharging into Inland Surface water, Public Sewers and On Land for Irrigation as per MOEF/CPCB Regulations.
1.Wastewater monitoring process involves sampling and analyzing wastewater for various parameters including biochemical oxygen demand (BOD), chemical oxygen demand (COD), total suspended solids (TSS), pH, oil and grease, heavy metals, and pathogens.
2. These parameters are regulated to prevent water pollution, protect aquatic ecosystems, and safeguard public health.
2. These parameters are regulated to prevent water pollution, protect aquatic ecosystems, and safeguard public health.
Construction Water.
1. Testing of swimming pool water as per IS 3328 is essential for ensuring the safety and quality of recreational water environments. IS
3328 sets standards for various parameters such as pH levels, alkalinity, hardness, chlorides, sulfates, and microbiological
contaminants in swimming pool water.
2. Testing facilities equipped to analyze these parameters help in maintaining optimal water quality, preventing health hazards such as
skin and eye irritations, bacterial infections, and ensuring the effectiveness of disinfection processes like chlorination.
3328 sets standards for various parameters such as pH levels, alkalinity, hardness, chlorides, sulfates, and microbiological
contaminants in swimming pool water.
2. Testing facilities equipped to analyze these parameters help in maintaining optimal water quality, preventing health hazards such as
skin and eye irritations, bacterial infections, and ensuring the effectiveness of disinfection processes like chlorination.
Swimming Pool Water.
1. Testing of swimming pool water as per IS 3328 is essential for ensuring the safety and quality of recreational water environments. IS
3328 sets standards for various parameters such as pH levels, alkalinity, hardness, chlorides, sulfates, and microbiological
contaminants in swimming pool water.
2. Testing facilities equipped to analyze these parameters help in maintaining optimal water quality, preventing health hazards such as
skin and eye irritations, bacterial infections, and ensuring the effectiveness of disinfection processes like chlorination.
3328 sets standards for various parameters such as pH levels, alkalinity, hardness, chlorides, sulfates, and microbiological
contaminants in swimming pool water.
2. Testing facilities equipped to analyze these parameters help in maintaining optimal water quality, preventing health hazards such as
skin and eye irritations, bacterial infections, and ensuring the effectiveness of disinfection processes like chlorination.
Boiler and Blow down Water.
1. Testing of boiler water and boiler blow down water is crucial for ensuring the efficient and safe operation of boiler systems.
2. Testing facilities equipped to analyze parameters such as pH levels, dissolved oxygen, conductivity, alkalinity, hardness, silica,
chlorides, and total dissolved solids (TDS) are essential in maintaining optimal water quality within boilers.
3. Regular testing helps in identifying and preventing issues such as corrosion, scale formation, and foaming which can lead to reduced
efficiency, increased maintenance costs, and even boiler failures.
2. Testing facilities equipped to analyze parameters such as pH levels, dissolved oxygen, conductivity, alkalinity, hardness, silica,
chlorides, and total dissolved solids (TDS) are essential in maintaining optimal water quality within boilers.
3. Regular testing helps in identifying and preventing issues such as corrosion, scale formation, and foaming which can lead to reduced
efficiency, increased maintenance costs, and even boiler failures.
Cooling Tower Blow Down water.
1.Testing of cooling tower blow down water is essential to assess its quality and ensure compliance with regulatory standards before disposal or reuse.
2. The testing process involves analyzing various parameters such as pH levels, total suspended solids (TSS), conductivity, total dissolved solids (TDS), hardness, chlorides, sulfates, and microbial contamination.
3. These tests help evaluate the effectiveness of water treatment processes, identify potential corrosion and scaling risks, and ensure that the discharged water meets environmental standards for safe disposal into sewer systems or for reuse in industrial processes.
2. The testing process involves analyzing various parameters such as pH levels, total suspended solids (TSS), conductivity, total dissolved solids (TDS), hardness, chlorides, sulfates, and microbial contamination.
3. These tests help evaluate the effectiveness of water treatment processes, identify potential corrosion and scaling risks, and ensure that the discharged water meets environmental standards for safe disposal into sewer systems or for reuse in industrial processes.
Water Testing for construction activities.
1.Testing wastewater at the inlet and outlet of Effluent Treatment Plants (ETP) and Sewage Treatment Plants (STP) is essential to ensure effective treatment processes and compliance with environmental regulations.
2. This monitoring involves sampling and analyzing wastewater for various parameters such as biochemical oxygen demand (BOD), chemical oxygen demand (COD), total suspended solids (TSS), pH, oil and grease, ammonia, nitrate, heavy metals, and pathogens.
3. These parameters determine the efficiency of biogas production, its potential for energy generation, and its environmental impact.
2. This monitoring involves sampling and analyzing wastewater for various parameters such as biochemical oxygen demand (BOD), chemical oxygen demand (COD), total suspended solids (TSS), pH, oil and grease, ammonia, nitrate, heavy metals, and pathogens.
3. These parameters determine the efficiency of biogas production, its potential for energy generation, and its environmental impact.
Wastewater Monitoring of ETP and STP Inlet and Outlet.
1.Testing wastewater at the inlet and outlet of Effluent Treatment Plants (ETP) and Sewage Treatment Plants (STP) is essential to ensure effective treatment processes and compliance with environmental regulations.
2. This monitoring involves sampling and analyzing wastewater for various parameters such as biochemical oxygen demand (BOD), chemical oxygen demand (COD), total suspended solids (TSS), pH, oil and grease, ammonia, nitrate, heavy metals, and pathogens.
3. These parameters determine the efficiency of biogas production, its potential for energy generation, and its environmental impact.
2. This monitoring involves sampling and analyzing wastewater for various parameters such as biochemical oxygen demand (BOD), chemical oxygen demand (COD), total suspended solids (TSS), pH, oil and grease, ammonia, nitrate, heavy metals, and pathogens.
3. These parameters determine the efficiency of biogas production, its potential for energy generation, and its environmental impact.