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Kyoki ye superheat steam hogi jiska temp 125 degree centegrade hai aur pressure near about 1 bar hai Diya hai------ Temperature (T): 125°C - Pressure (P): 1 bar (approximately 1 kg/cm²) At 125°C and 1 bar, the steam is likely to be superheated, so we need the enthalpy values from superheated steam tables. Saturated Steam (1 bar): Saturation temperature for 1 bar (100 kPa) is 100°C. At 125°C, the steam will be in the superheated region. Superheated Steam (1 bar, 125°C): Enthalpy of superheated steam at 1 bar and 125°C can be found in the steam tables. Enthalpy of liquid water (hf) at 1 bar: approximately 419 kJ/kg Enthalpy of vaporization (hfg) at 1 bar: approximately 2257 kJ/kg - Enthalpy of steam (hg) = hf + hfg ≈ 2676 kJ/kg For superheated steam at 1 bar and 125°C, the enthalpy can be looked up directly from superheated steam tables. According to standard superheated steam tables: - Enthalpy (h) ≈ 2725 kJ/kg For 100 tons of steam: - 1 ton = 1000 kg - 100 tons = 100,000 kg Therefore, the total enthalpy for 100 tons of steam at 125°C and 1 bar: Total Enthalpy (H) = 2725 kJ/kg 100,000 kg = 272,500,000 kJ or 272.5 GJ So, the enthalpy of 100 tons of steam at 125°C and 1 kg/cm² pressure is approximately 272.5 GJ.
At 125°C, the steam will be in the superheated region. Temperature (T): 125°C - Pressure (P): 1 bar (approximately 1 kg/cm²) - Locate the corresponding pressure and temperature in the steam tables. Determine the enthalpy of saturated steam at the given temperature and pressure. At 125°C and 1 bar, the steam is likely to be superheated, so we'll need the enthalpy values from superheated steam tables. Saturated Steam (1 bar): - Saturation temperature for 1 bar (100 kPa) is 100°C. At 125°C, the steam will be in the superheated region. Superheated Steam (1 bar, 125°C):** - Enthalpy of superheated steam at 1 bar and 125°C can be found in the steam tables. Using standard steam tables: - Enthalpy of liquid water (hf) at 1 bar: approximately 419 kJ/kg - Enthalpy of vaporization (hfg) at 1 bar: approximately 2257 kJ/kg - Enthalpy of steam (hg) = hf + hfg ≈ 2676 kJ/kg For superheated steam at 1 bar and 125°C, the enthalpy can be interpolated or looked up directly from superheated steam tables. According to standard superheated steam tables: - Enthalpy (h) ≈ 2725 kJ/kg For 100 tons of steam: - 1 ton = 1000 kg - 100 tons = 100,000 kg Therefore, the total enthalpy for 100 tons of steam at 125°C and 1 bar: - Total Enthalpy (H) = 2725 kJ/kg 100,000 kg = 272,500,000 kJ or 272.5 GJ So, the enthalpy of 100 tons of steam at 125°C and 1 kg/cm² pressure is approximately 272.5 GJ.
Enthalpy of superheated steam at 1 bar and 125°C can be found in the steam tables. Using standard steam tables: - Enthalpy of liquid water (hf) at 1 bar: approximately 419 kJ/kg - Enthalpy of vaporization (hfg) at 1 bar: approximately 2257 kJ/kg - Enthalpy of steam (hg) = hf + hfg ≈ 2676 kJ/kg
Nice way of explanation sir.Enthalpy ka itna shandar video maine ajtak nahi dekha.
Very very up to the mark explanation .
Shandaar explanation sir
Sir the way of your teaching is extraordinary.I don't know why people not reach to your channel and your subscriber below 500.the knowledge you are providing knowledge like millions subscribers are providing.you are deserving millions of subscribers.
No doubt.I agree with you.
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Sir agar hamare pass 125deg temp 100ton steam hai jiska pressure 1kg hai uski enthalpy kaise nikalenge.
Kyoki ye superheat steam hogi jiska temp 125 degree centegrade hai aur pressure near about 1 bar hai
Diya hai------
Temperature (T): 125°C
- Pressure (P): 1 bar (approximately 1 kg/cm²)
At 125°C and 1 bar, the steam is likely to be superheated, so we need the enthalpy values from superheated steam tables.
Saturated Steam (1 bar):
Saturation temperature for 1 bar (100 kPa) is 100°C.
At 125°C, the steam will be in the superheated region.
Superheated Steam (1 bar, 125°C):
Enthalpy of superheated steam at 1 bar and 125°C can be found in the steam tables.
Enthalpy of liquid water (hf) at 1 bar: approximately 419 kJ/kg
Enthalpy of vaporization (hfg) at 1 bar: approximately 2257 kJ/kg
- Enthalpy of steam (hg) = hf + hfg ≈ 2676 kJ/kg
For superheated steam at 1 bar and 125°C, the enthalpy can be looked up directly from superheated steam tables.
According to standard superheated steam tables:
- Enthalpy (h) ≈ 2725 kJ/kg
For 100 tons of steam:
- 1 ton = 1000 kg
- 100 tons = 100,000 kg
Therefore, the total enthalpy for 100 tons of steam at 125°C and 1 bar:
Total Enthalpy (H) = 2725 kJ/kg
100,000 kg = 272,500,000 kJ or 272.5 GJ
So, the enthalpy of 100 tons of steam at 125°C and 1 kg/cm² pressure is approximately 272.5 GJ.
At 125°C, the steam will be in the superheated region.
Temperature (T): 125°C
- Pressure (P): 1 bar (approximately 1 kg/cm²)
- Locate the corresponding pressure and temperature in the steam tables.
Determine the enthalpy of saturated steam at the given temperature and pressure.
At 125°C and 1 bar, the steam is likely to be superheated, so we'll need the enthalpy values from superheated steam tables.
Saturated Steam (1 bar):
- Saturation temperature for 1 bar (100 kPa) is 100°C.
At 125°C, the steam will be in the superheated region.
Superheated Steam (1 bar, 125°C):**
- Enthalpy of superheated steam at 1 bar and 125°C can be found in the steam tables.
Using standard steam tables:
- Enthalpy of liquid water (hf) at 1 bar: approximately 419 kJ/kg
- Enthalpy of vaporization (hfg) at 1 bar: approximately 2257 kJ/kg
- Enthalpy of steam (hg) = hf + hfg ≈ 2676 kJ/kg
For superheated steam at 1 bar and 125°C, the enthalpy can be interpolated or looked up directly from superheated steam tables.
According to standard superheated steam tables:
- Enthalpy (h) ≈ 2725 kJ/kg
For 100 tons of steam:
- 1 ton = 1000 kg
- 100 tons = 100,000 kg
Therefore, the total enthalpy for 100 tons of steam at 125°C and 1 bar:
- Total Enthalpy (H) = 2725 kJ/kg 100,000 kg = 272,500,000 kJ or 272.5 GJ
So, the enthalpy of 100 tons of steam at 125°C and 1 kg/cm² pressure is approximately 272.5 GJ.
Enthalpy of superheated steam at 1 bar and 125°C can be found in the steam tables.
Using standard steam tables:
- Enthalpy of liquid water (hf) at 1 bar: approximately 419 kJ/kg
- Enthalpy of vaporization (hfg) at 1 bar: approximately 2257 kJ/kg
- Enthalpy of steam (hg) = hf + hfg ≈ 2676 kJ/kg
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