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Water Heat Exchanger

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Water Heat Exchangers Manufacturer INDIA

Water heating is a thermodynamic process using an energy source to heat water above its initial temperature. Typical household uses of hot water are for cooking, cleaning, bathing, and space heating. In industry, both hot water and water heated to condensation have many uses.

 

Domestically, water is customarily heated in vessels known as water heaters, kettles, cauldrons, pots, or coppers. These metal vessels heat a batch of water, but do not produce a continual supply of heated water at a preset temperature. The temperature will vary based on the consumption rate of hot water; the water becomes cooler as flow is increased.

 

Appliances for providing a more-or-less stable supply of hot water are variously known as water heaters, hot water heaters, hot water tanks, boilers, heat exchangers, calorifiers, or geysers depending on whether they are heating filtered or non-potable water, in domestic or industrial use, their energy source, and in which part of the world they are found. In domestic installations, potable water heated for uses other than space heating is sometimes known as domestic hot water (DHW).

 

In many countries the most common energy sources for heating water are fossil fuels: natural gas, liquefied petroleum gas, oil, or sometimes-solid fuels. These fuels may be addicted directly or by the use of electricity (which may derive from any of the above fuels or from nuclear or renewable sources). Alternative energy such as solar energy, heat pumps, hot water heat recycling, and sometimes-geothermal heating, may also be used as available, usually in arrangement with backup systems supplied by gas, oil or electricity.

 

In some countries district heating is a main source of water heating in compactly populated urban areas. This is especially the case in Scandinavia. District heating systems make it possible to supply all of the energy for water heating as well as space heating from waste heat from industries, power plants, incinerators, geothermal heating, and central solar heating. The actual heating of the tap water is performed in heat exchangers at the consumers’ premises. Generally the consumer has no in-building backup system, due to the very high-expected accessibility of district heating systems.

 

Energy efficiencies of water heaters in residential use can vary greatly, particularly based on manufacturer and model. However, electric heaters tend to be slightly more efficient (if one omits the power station losses) with recovery efficiency (how efficiently energy is transferred to the water) reaching about 98%. Gas fired heaters have maximum recovery efficiencies of only about 86% (the remaining heat is lost with the flue gasses). Overall energy factors can be as low as 80% for electric and 50% for gas systems. Natural gas and propane tank water heaters with energy factors of 62% or greater, as well as electric tank water heaters with energy factors of 93% or greater, are considered high-efficiency units. Energy Star-rated natural gas and propane water heaters have energy factors of 67% or higher; electric tank water heaters are not included in the Energy Star program. Since electricity production itself today has efficiency levels ranging from only 15% to slightly over 55% (combined cycle gas turbine), with around 40% typical for thermal power stations, direct electric water heating is typically the least energy efficient option. However, use of a heat pump can make electric water heaters much more energy efficient and lead to a decrease in carbon dioxide emissions, even more so if a renewable source of electricity is used.

 

Specifications :

  • Water heat exchanger is an aquastat and timer in order to decrease the added heat loss from the recirculation system can accommodate a recirculation system similar to those in the tank-type systems. It has to be said though that if the storage tank is highly insulated—a few tanks are available with excellent levels such as 100 mm or more polyurethane foam—the savings become minimal. For one consumer-grade electric storage water heater, the surface temperature was less than 1 °C higher than the air temperature.

Applications :

  • Water enters residence in the US at about 10 °C (50 °F) (varies with latitude and season).
  • Hot water temperatures of 40–49 °C (104–120 °F) are preferred for dishwashing, laundry and showering; requiring the water high temperature to be raised about 30 °C (54 °F) or more, if the hot water is later mixed with cold water.
  • The Uniform Plumbing Code situation shower flow rate is 2.5 US gallons (9.5 L) per minute; sink and dishwasher usages range from 1–3 US gallons (3.8–11 L) per minute.
  • Natural gas in the U.S. is measured in CCF (100 cubic feet), which is converted to a standardized heat content unit called the thermal, equal to 100,000 British thermal units (BTU).
  • A BTU is the energy required to raise one pound of water by one degree Fahrenheit. A U.S. gallon of water weighs 8.3 pounds (3.8 kg).
  • So, to raise a 40-gallon tank of 55 °F (13 °C) water up to 105 °F (41 °C) would require (40 × 8.3 × (105 − 55) / 100,000) BTU, or approximately 0.17 CCF, at 100% efficiency. A 40,000 BTU/h heater would take 25 minutes to do this, at 100% efficiency. At $1 per thermal, the cost of the gas would be about 17 cents.
  • In comparison, a typical electric water heater has a 4500 watt heating element, which if 100% efficient results in a heating time of about 1.1 hours. Since 16,600 BTU is roughly 4.9 kWh, at 10 cents/kWh the electricity would cost $0.49. Operating a shower at 2.5 gpm and 104 °F (40 °C) is equivalent to operating a 19.8 kW appliance [ ref. w computes 13.2 kW, but that is for 20 degree C increase instead of 30 ].[4] In the UK, domestic electric immersion heaters are usually rated at 3 kilowatts.

Advantages :

  • Safety: Water Heaters can precisely control the temperature of the treated water, which means dangerous temperature levels and spikes are no longer a problem
  • Reduced risk of water damage: No stored water means there is no risk of water damage from a tank failure or rupture, although the risk of water damage from a pipe or fitting failure remains. Improper piping in either the hot or cold water lines to the water heater can result in water damage though.
  • Less physical space: Most water heaters can be mounted on a wall or even internally in a building’s structure. This means less physical space has to be dedicated to heating water. Even systems that can’t be mounted on walls take up less space than a tank-type water heater.
  • Unlimited hot water: As water is heated while passing through the system an unlimited supply of hot water is available with a water heater. Although flow rate will determine the amount of hot water that can be generated at one time it can be generated indefinitely. However, this can also be a disadvantage, as running out of hot water self-limits use while a heater has no such limit.
  • Long-term energy savings: Although a water heater might cost more initially it may result in both energy and cost savings in the long term. As water is heated only when it is needed, there is no storage of hot water. With a tank, water is kept warm all day even if it never gets used and heat loss through the tank walls will result in a continual energy drain. Even in homes or buildings with a high demand for hot water, a water heater may provide some level of savings. In a typical home these savings are quite substantial.

Water Heat Exchangers Manufacturer INDIA

Heat Exchanger Manufacturers INDIA

Water Heat Exchanger

Air Cooled Condenser Manufacturers

Air Cooled Condenser

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Air Cooled Condenser :

AIR COOLED CONDENSER MANUFACTURER

AIR COOLED CONDENSER

Air Cooled Condenser Manufacturers

Air Cooled Condenser

We are United Heat Exchanger providing solution for Air condensation system for all types of Thermal Power plants.In systems involving heat transfer, a condenser ( Air Cooled Condenser )is a device or unit used to condense a substance from its gaseous to its liquid state, typically by cooling it. In so doing, the latent heat is given up by the substance, and will transfer to the condenser coolant. Condensers are typically heat exchangers which have various designs and come in many sizes ranging from rather small (hand-held) to very large industrial-scale units used in plant processes. For example, a refrigerator uses a condenser to get rid of heat extracted from the interior of the unit to the outside air. Condensers are used in air conditioning, industrial chemical processes such as distillation, steam power plants and other heat-exchange systems. Use of cooling water or surrounding air as the coolant is common in many condensers.

 

Specifications :

  • A condenser unit used in central air conditioning systems typically has a heat exchanger section to cool down and condense incoming refrigerant vapor into liquid, a compressor to raise the pressure of the refrigerant and move it along,
  • A fan for blowing outside air through the heat exchanger section to cool the refrigerant inside.

Applications :

  • A typical configuration of such a condenser unit is as follows: The heat exchanger section wraps around the sides of the unit with the compressor inside.
  • In this heat exchanger section, the refrigerant goes through multiple tube passes, which are surrounded by heat transfer fins through which cooling air can move from outside to inside the unit.

Advantages :

  • There is a motorized fan inside the condenser unit near the top, which is covered by some grating to keep any objects from accidentally falling inside on the fan.
  • The fan is used to blow the outside cooling air in through the heat exchange section at the sides and out the top through the grating.
  • These condenser units are located on the outside of the building they are trying to cool, with tubing between the unit and building, one for vapor refrigerant entering and another for liquid refrigerant leaving the unit.
  • Of course, an electric power supply is needed for the compressor and fan inside the unit.