Steam Condensate Temperature Calculator

The steam condensate temperature depends on the pressure. At atmospheric pressure (101.3 kPa), it’s 100°C (212°F). As pressure increases, so does the condensate temperature. For example, at 400 kPa, it’s approximately 155°C (311°F), while at 1000 kPa, it’s around 198°C (388°F). These values represent the temperature when steam condenses back into liquid water.

Steam Condensate Temperature Calculator

Steam Condensate Temperature Calculator







Condensate Temperature: °C

Pressure (kPa)Pressure (psi)Steam Condensate Temperature (°C)Steam Condensate Temperature (°F)
0 (Atmospheric)0100212
101.314.7100212
20029120248
40058155311
700101.5179354
1000145198388
1500217.5220428
2000290238460

FAQs

How do you calculate steam condensate temperature? The temperature of steam condensate can be calculated using the energy equation Q = m * Cp * ΔT, where Q is the heat energy, m is the mass of condensate, Cp is the specific heat capacity of water, and ΔT is the temperature change. You’ll need to know the initial temperature of the condensate and the heat added or removed to calculate the final temperature.

What is the ratio of steam to condensate? The ratio of steam to condensate can vary widely depending on the specific application and process. It can range from 1:1 to 1:10 or more. In some cases, there may be a continuous flow of steam and condensate, while in others, steam is intermittently supplied.

What is the temperature of saturated condensate? Saturated condensate is water at its boiling point under a given pressure. The temperature of saturated condensate will depend on the pressure it’s at. For example, at standard atmospheric pressure (1 atm or 101.3 kPa), saturated condensate would be at 100 degrees Celsius (212 degrees Fahrenheit).

How hot is 50 steam? Steam at 50°C would be considered relatively low-temperature steam. It is significantly cooler than the standard boiling point of water (100°C or 212°F) at atmospheric pressure.

How do you calculate condensate temperature? The condensate temperature can be calculated using the energy equation mentioned earlier, taking into account the heat transfer and any phase changes involved. The specific calculation would depend on the specific conditions of the process.

What temperature is condensation point in Celsius? The condensation point of water in Celsius is 100°C at standard atmospheric pressure.

How do you size steam condensate? Sizing steam condensate equipment, such as traps and pipes, involves considering factors like the steam flow rate, pressure, temperature, and the type of equipment being used. Engineers use various formulas and guidelines to size condensate systems properly.

How much heat is needed to change 4 kg of water at 100°C to steam at 100°C? To convert 4 kg of water at 100°C to steam at 100°C, you need to provide the latent heat of vaporization for water, which is approximately 2,257 kJ/kg. So, the total heat required would be around 4 kg * 2,257 kJ/kg = 9,028 kJ.

How much condensate should a boiler produce? The amount of condensate a boiler produces depends on factors like its size, operating pressure, and the rate of steam generation. It can vary widely, but in general, a well-operating boiler should produce a corresponding amount of condensate for the steam it generates.

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What temperature range is condensate water? Condensate water temperature can range from the boiling point of water at the prevailing pressure (e.g., 100°C at atmospheric pressure) down to cooler temperatures, depending on the heat exchange process and conditions.

Why should the condensate temperature be as high as possible? Maintaining a high condensate temperature can be desirable because it contains more thermal energy, which can be used to preheat incoming feedwater or for other process purposes. Higher condensate temperatures are more energy-efficient.

What temperature is wet saturated steam? Wet saturated steam is steam that is at its saturation temperature but contains some liquid water droplets. The temperature will depend on the pressure, and it will be the same as the saturation temperature for that pressure.

How hot is too hot for steam? Steam temperatures that are too hot can be a safety concern and can cause equipment damage. However, what is considered “too hot” depends on the specific application and equipment. Steam temperatures significantly above 100°C can be problematic for many systems.

What is the hottest steam can be? The temperature of steam can theoretically reach the critical point of water, which is around 374°C (705°F) at a pressure of 22.1 MPa (approximately 220 times atmospheric pressure). Beyond this point, it transitions into a supercritical fluid rather than a distinct gas and liquid.

What is the best temperature for steam? The best temperature for steam depends on the specific application. In most industrial processes, steam is used at temperatures ranging from 100°C to 400°C (212°F to 752°F) depending on the requirements of the process.

What is a typical condensing temperature? The typical condensing temperature for water vapor (steam) is the temperature at which it changes from a vapor to a liquid. This occurs at its saturation temperature for a given pressure. For example, at atmospheric pressure, it’s 100°C.

How much condensate per hour? The amount of condensate produced per hour depends on the rate of steam generation and the efficiency of the system. It can vary widely, but it’s often expressed in terms of pounds or kilograms per hour.

What is condensation formula? The formula for condensation is the reverse of the heat of vaporization formula: Q = m * ΔH, where Q is the heat energy, m is the mass of the substance condensing, and ΔH is the heat of condensation.

What temperature should condensation be avoided at? Condensation should typically be avoided when it can cause problems in a system or process. The specific temperature at which condensation becomes an issue depends on the context and can vary widely.

Is boiling and condensation the same temperature? Boiling and condensation occur at the same temperature under specific conditions. At the boiling point, a substance changes from a liquid to a vapor, and at the condensation point, it changes from a vapor back to a liquid, both at the same temperature and pressure.

How hot should it be to prevent condensation? To prevent condensation, the temperature of the surface or environment should be above the dew point temperature. The dew point is the temperature at which air becomes saturated with moisture, leading to condensation. Heating the surface above this temperature can prevent condensation.

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How high can steam push condensate? The pressure at which steam can push condensate depends on the pressure of the steam itself and the design and strength of the condensate return system. Steam can push condensate to higher elevations, but there are practical limits based on equipment and system design.

Is condensate the same as steam? No, condensate and steam are not the same. Condensate is liquid water that forms when steam loses heat and condenses. Steam, on the other hand, is the gaseous phase of water that forms when water is heated to its boiling point.

What is the pressure of steam condensate? The pressure of steam condensate can vary widely depending on the conditions of the system. It can range from atmospheric pressure to higher pressures if the condensate is pressurized or part of a closed system.

How much heat is required to make 1 kg of steam? The heat required to make 1 kg of steam depends on the initial temperature of the water and the desired steam temperature. To convert 1 kg of water at 100°C to steam at 100°C, you would need approximately 2,257 kJ of heat.

Why is steam at 100°C better for heating purposes than boiling water at 100°C? Steam at 100°C is better for heating purposes than boiling water at 100°C because it carries more latent heat energy. When steam condenses, it releases this latent heat, providing efficient and consistent heating. Boiling water at 100°C does not release the same amount of heat when it cools and becomes condensate.

How much heat is needed to convert 1 kg of water into steam? To convert 1 kg of water into steam at 100°C and atmospheric pressure, you would need approximately 2,257 kJ of heat.

What temperature is boiler condensate? Boiler condensate temperature can vary depending on the specific boiler and operating conditions. It can range from the saturation temperature of the steam produced by the boiler down to cooler temperatures as it loses heat.

What temperature is a boiler in condensing water? The temperature of condensing water in a boiler is typically below the dew point of the combustion gases. It can be relatively cool, often well below 100°C, as it represents the point at which water vapor in the flue gas condenses back into liquid form.

What temperature should a condensing boiler be set at? The specific temperature setting for a condensing boiler can vary depending on the manufacturer’s recommendations and the desired hot water temperature for the application. It’s typically set to optimize energy efficiency while providing adequate hot water.

Is water minimum at 4°C? Water reaches its maximum density at approximately 4°C. This means that water is heaviest at this temperature, and its density decreases both above and below 4°C. Water can exist in a liquid state below 4°C but is less dense than at this temperature.

What is the difference between condensation and condensate? Condensation is the process of a substance changing from a gas or vapor to a liquid when it loses heat, while condensate is the resulting liquid that forms during the condensation process.

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What is a low condensing temperature? A low condensing temperature typically refers to a temperature at which a substance condenses from a vapor to a liquid at a lower temperature than its normal boiling point. The specific temperature depends on the substance and the pressure.

What is wet steam at 200°C and 20% moisture? Wet steam at 200°C and 20% moisture means that the steam contains both vapor and liquid water droplets. In this case, the steam is at a higher temperature than its saturation temperature at the given pressure, and the 20% moisture indicates that 20% of the mixture is liquid water.

How do you know if steam is saturated or superheated? You can determine if steam is saturated or superheated by comparing its temperature to its saturation temperature at the given pressure. If the steam temperature is equal to or slightly above the saturation temperature, it is saturated. If it is significantly higher, it is superheated.

How do you know if steam is saturated? Steam is saturated when its temperature matches the saturation temperature at the prevailing pressure. You can use steam tables or equations of state to check if the temperature and pressure correspond to saturation conditions.

What temperature is a steam room in the UK? Steam rooms in the UK are typically set to temperatures between 40°C and 45°C (104°F to 113°F) with high humidity levels.

Can steam get hotter than 100 degrees Celsius? Yes, steam can be hotter than 100 degrees Celsius if it is under pressure. The temperature of saturated steam is determined by its pressure, and it can exceed 100°C at higher pressures.

Does steam get hotter under pressure? Yes, steam gets hotter under pressure. As pressure increases, the saturation temperature of steam also increases. Therefore, steam under higher pressure will have a higher temperature.

Can steam reach 1000 degrees? Steam can reach temperatures of 1000 degrees Celsius or more at extremely high pressures. However, such conditions are not commonly encountered in everyday industrial or residential settings.

How hot does steam get in Celsius? The temperature of steam in Celsius depends on the pressure. At standard atmospheric pressure, it is 100°C. At higher pressures, the temperature can be significantly greater than 100°C.

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