How do you calculate heat exchanger?

How do you calculate heat exchanger?

Typical Overall Heat-Transfer Coefficients

  1. Free Convection Gas – Free Convection Gas : U = 1 – 2 W/m2K (typical window, room to outside air through glass)
  2. Free Convection Gas – Forced liquid (flowing) water : U = 5 – 15 W/m2K (typical radiator central heating)

How many tubes are in a tube and shell heat exchanger?

waste heat boiler in power plant gas turbine are shell & tube type heat exchanger are also larger size and having 5000-12000 number of tubes.

What is a tube within a tube heat exchanger?

Exergy LLC, tube-in-tube heat exchangers consist of two tubes, an inner and an outer coiled together. This unique, compact design prevents thermal fatigue, increases efficiency and reduces the overall size. It is ideal for high temperature, high pressure and low flow applications.

How do I know how many tube passes?

The number of passes in a heat exchanger is generally determined by the total flow of tube side fluid, the exchanger area requirement, allowable pressure drop and any limitations in tube length (location, access, bundle pulling requirements, etc).

How is shell and tube heat exchanger area calculated?

Example 3: Taking the shell and tube heat exchanger described in Example 1, how many tubes of 3 inch diameter and 10 ft length should be used? Solution: The surface area per tube will be: Sa = πDL = π (3/12) (10) ft² = 7.854 ft² – (D – tube diameter in ft).

How do you find the area of a tube?

A2 = πr22 for the area enclosed by C. A = A1 – A2 for the area of the solid cross section of the tube, the end….Tube Formulas in terms of radius and height, r and h:

  1. generally L = C * h = 2πrh, therefore,
  2. L1 = 2πr1h, the external surface area.
  3. L2 = 2πr2h, the internal surface area.

How do you calculate tube bundle diameter?

An easy way to measure the diameter is to take the circumference of the shell, then divide by 3.14 to give you the diameter of the bundle. Overall Length (OAL) is the length measured from the face of the tubesheet through the entire length of the tubes.

What are tube passes in heat exchanger?

The shell-and-tube exchanger contains a large shell and many tubes. A fluid stream passes through the tubes, and another stream passes through the shell to trade heat energy. The improved heat transfer signifies a faster transfer rate and the higher heat capacity of the system [13].

What is the formula for area of a pipe?

Plug in L and D into the following equation to calculate the surface area of the pipe: 3.14 x L x D. For example, if you had a pipe with a length of 20 feet and a diameter of 2 feet, you would get 3.14 x 20 x 2 and find that the surface area of the pipe equals 125.6 square feet.

How do you calculate the heat transfer area of a shell and tube heat exchanger?

4.0 – HEAT EXCHANGERS CALCULATIONS:

  1. The main basic Heat Exchanger equation is: Q = U x A x ΔTm =
  2. The log mean temperature difference ΔTm is: ΔTm =
  3. (T1 – t2) – (T2 – t1) = °F.
  4. T1 = Inlet tube side fluid temperature; t2 = Outlet shell side fluid temperature;
  5. ln (T1 – t2) (T2 – t1)

What is the shell and tube heat exchanger in detail?

A shell and tube heat exchanger is a class of heat exchanger designs. It is the most common type of heat exchanger in oil refineries and other large chemical processes, and is suited for higher-pressure applications. As its name implies, this type of heat exchanger consists of a shell (a large pressure vessel) with a bundle of tubes inside it.

What is meant by tube pitch for heat exchangers?

Tube pitch: when designing the tubes, it is practical to ensure that the tube pitch (i.e., the centre-centre distance of adjoining tubes) is not less than 1.25 times the tubes’ outside diameter . A larger tube pitch leads to a larger overall shell diameter, which leads to a more expensive heat exchanger.

How do shell and tube heat exchanger work?

Heat is transferred by conduction through the exchanger materials which separate the mediums being used. A shell and tube heat exchanger passes fluids through and over tubes, where as an air cooled heat exchanger passes cool air through a core of fins to cool a liquid.

What are the different types of heat exchanger?

Several types of heat exchangers are used for heating one fluid and cooling another. The types of heat exchangers include the shell and tube heat exchanger, plate heat exchanger, double pipe heat exchanger, and spiral heat exchanger. Most of these heat exchangers can be counterflow or parallel flow.