. DM Water systems produces high quality water free from any kind of minerals. It operates on the principle of ion exchange, degasification and polishing for treating water and removing ions. Demineralization technology is one of the cost effective solutions for treatment of water. These systems are widely used to treat water in the field of steam, power, process, and cooling.

Ultrafiltration (UF) is a membrane filtration process similar to Reverse Osmosis, using hydrostatic pressure to force water through a semi-permeable membrane. The pore size of the ultrafiltration membrane is usually 103 - 106 Daltons. Ultrafiltration (UF) is a pressure-driven barrier to suspended solids, bacteria, viruses, endotoxins and other pathogens to produce water with very high purity and low silt density. Ultrafiltration (UF) is a variety of membrane filtration in which hydrostatic pressure forces a liquid against a semi permeable membrane. Suspended solids and solutes of high molecular weight are retained, while water and low molecular weight solutes pass through the membrane. Ultrafiltration is not fundamentally different from reverse osmosis, microfiltration or nanofiltration, except in terms of the size of the molecules it retains. A membrane or, more properly, a semi permeable membrane, is a thin layer of material capable of separating substances when a driving force is applied across the membrane. Once considered a viable technology only for desalination, membrane processes are increasingly employed for removal of bacteria and other microorganisms, particulate material, and natural organic material, which can impart color, tastes, and odors to the water and react with disinfectants to form disinfection byproducts (DBP). As advancements are made in membrane production and module design, capital and operating costs continue to decline. The pressure-driven membrane processes discussed in this fact sheet are microfiltration (MF), ultrafiltration (UF), nanofiltration (NF), and reverse osmosis (RO).

Ultrafiltration (UF) is a membrane filtration process similar to Reverse Osmosis, using hydrostatic pressure to force water through a semi-permeable membrane. The pore size of the ultrafiltration membrane is usually 103 - 106 Daltons. Ultrafiltration (UF) is a pressure-driven barrier to suspended solids, bacteria, viruses, endotoxins and other pathogens to produce water with very high purity and low silt density. Ultrafiltration (UF) is a variety of membrane filtration in which hydrostatic pressure forces a liquid against a semi permeable membrane. Suspended solids and solutes of high molecular weight are retained, while water and low molecular weight solutes pass through the membrane. Ultrafiltration is not fundamentally different from reverse osmosis, microfiltration or nanofiltration, except in terms of the size of the molecules it retains. A membrane or, more properly, a semi permeable membrane, is a thin layer of material capable of separating substances when a driving force is applied across the membrane. Once considered a viable technology only for desalination, membrane processes are increasingly employed for removal of bacteria and other microorganisms, particulate material, and natural organic material, which can impart color, tastes, and odors to the water and react with disinfectants to form disinfection byproducts (DBP). As advancements are made in membrane production and module design, capital and operating costs continue to decline. The pressure-driven membrane processes discussed in this fact sheet are microfiltration (MF), ultrafiltration (UF), nanofiltration (NF), and reverse osmosis (RO).

A swimming pool heat pump is a device used to efficiently heat pool water by transferring heat from the surrounding air to the pool water. It operates on the principle of heat exchange, making it a cost-effective and environmentally friendly way to maintain a comfortable swimming temperature. How It Works: Air Intake: The heat pump draws in ambient air through a fan. Heat Absorption: The air passes over an evaporator coil containing a refrigerant. This refrigerant absorbs the heat from the air and turns into a gas. Compression: The warm gas is compressed by a compressor, increasing its temperature significantly. Heat Transfer: The hot gas passes through a heat exchanger where it transfers its heat to the pool water. Recycling: The refrigerant cools down, returns to liquid form, and the cycle repeats. Features: Energy Efficiency: Heat pumps use electricity to operate but rely on extracting heat from the air, making them more energy-efficient than traditional electric or gas heaters. Temperature Control: They typically come with thermostats for precise temperature adjustments. Durability: Designed to withstand outdoor conditions and prolonged use. Eco-Friendly: Lower carbon footprint compared to fossil fuel-based heaters. Advantages: Lower Operating Costs: Despite the initial investment, they save money in the long run due to lower energy consumption. Consistent Heating: They provide steady and reliable heating, especially in moderate climates. Longevity: Can last for 10–20 years with proper maintenance. Disadvantages: Dependent on Air Temperature: Their efficiency decreases in very cold weather since they rely on heat from the air. Slower Heating: It takes longer to heat the pool compared to gas heaters. Ideal Use: A swimming pool heat pump is best suited for regions with mild to warm climates where outdoor temperatures remain above 50°F (10°C). It's an excellent choice for residential and commercial pools, offering an economical way to extend the swimming season.

Ambient air is drawn in by the fan and passed over the evaporator. The evaporator cools the air, i.e. it extracts the heat it contains. In the evaporator, the heat removed is transferred to the working fluid (refrigerant). With the aid of an electrically driven compressor, the absorbed heat is “pumped” to a higher temperature level through an increase in pressure and given off to the heating water via the condenser (heat exchanger). In so doing, the electrical energy is used to raise the heat of the environment to a higher temperature level. Due to the fact that the heat energy extracted from the air is transferred to the heating water, this type of appliance is referred to as an air source heat pump. The air source heat pump consists of the following main components: Evaporator, fan and expansion valve as well as the low-noise compressor, the condenser and the electric control unit consisting of branded equipment for controlling and safety devices for protection of Compressor, pump etc. against any variations in voltage, current. Also consists of trip devices, if any parameters not available for smooth running of Heat Pump. The Heat Pump is connected to a Hot Water Storage Tank which is made of 4 mm M.S. Sheet, is insulated with rock wool, for maximum temperature sustenance.. Once the temperature in Tank reaches 55°C the machine automatically shuts down and again re-starts when the temperature reduces to 52°C. There is 24 x 7 uninterrupted Hot Water for the whole year, unconditional to any seasons or weather, unlike solar heaters which are completely dependent on Weather conditions.

Ambient air is drawn in by the fan and passed over the evaporator. The evaporator cools the air, i.e. it extracts the heat it contains. In the evaporator, the heat removed is transferred to the working fluid (refrigerant). With the aid of an electrically driven compressor, the absorbed heat is “pumped” to a higher temperature level through an increase in pressure and given off to the heating water via the condenser (heat exchanger). In so doing, the electrical energy is used to raise the heat of the environment to a higher temperature level. Due to the fact that the heat energy extracted from the air is transferred to the heating water, this type of appliance is referred to as an air source heat pump. The air source heat pump consists of the following main components: Evaporator, fan and expansion valve as well as the low-noise compressor, the condenser and the electric control unit consisting of branded equipment for controlling and safety devices for protection of Compressor, pump etc. against any variations in voltage, current. Also consists of trip devices, if any parameters not available for smooth running of Heat Pump. The Heat Pump is connected to a Hot Water Storage Tank which is made of 4 mm M.S. Sheet, is insulated with rock wool, for maximum temperature sustenance.. Once the temperature in Tank reaches 55°C the machine automatically shuts down and again re-starts when the temperature reduces to 52°C. There is 24 x 7 uninterrupted Hot Water for the whole year, unconditional to any seasons or weather, unlike solar heaters which are completely dependent on Weather conditions.

Sand filtration is used for the removal of suspended matter, as well as floating and sinkable particles. The wastewater flows vertically through a fine bed of sand and/or gravel.

Carbon filters remove contaminants through adsorption. Adsorption means that contaminants are attracted to the surface of the activated carbon and held to it, much the same way a magnet attracts and holds iron filings. Carbon filters also act as a catalyst to change the chemical composition of some contaminants.

Ambient air is drawn in by the fan and passed over the evaporator. The evaporator cools the air, i.e. it extracts the heat it contains. In the evaporator, the heat removed is transferred to the working fluid (refrigerant). With the aid of an electrically driven compressor, the absorbed heat is “pumped” to a higher temperature level through an increase in pressure and given off to the heating water via the condenser (heat exchanger). In so doing, the electrical energy is used to raise the heat of the environment to a higher temperature level. Due to the fact that the heat energy extracted from the air is transferred to the heating water, this type of appliance is referred to as an air source heat pump. The air source heat pump consists of the following main components: Evaporator, fan and expansion valve as well as the low-noise compressor, the condenser and the electric control unit consisting of branded equipment for controlling and safety devices for protection of Compressor, pump etc. against any variations in voltage, current. Also consists of trip devices, if any parameters not available for smooth running of Heat Pump. The Heat Pump is connected to a Hot Water Storage Tank which is made of 4 mm M.S. Sheet, is insulated with rock wool, for maximum temperature sustenance.. Once the temperature in Tank reaches 55°C the machine automatically shuts down and again re-starts when the temperature reduces to 52°C. There is 24 x 7 uninterrupted Hot Water for the whole year, unconditional to any seasons or weather, unlike solar heaters which are completely dependent on Weather conditions.