Radiation makes it impossible to stand close to a hot lava flow. Calculate the rate of...

QUESTION 1). A person staying in a caravan on a hot day decides to close the...

QUESTION 1). A person staying in a caravan on a hot day decides to close the door and run the fridge with its door open to cool the interior down. Briefly explain if this will help and why.                  QUESTION TWO) A large hot water tank is maintained at a constant temperature of 70°C by a counter flow heat exchanger coil containing hot water. The heating coil has an outside diameter of 30mm and U=4500W/m2K. The water enters the heating coil...

Air at 25C blows over a hot plate maintained at 300C. The hot plate has dimensions...

Air at 25C blows over a hot plate maintained at 300C. The hot plate has dimensions of 50cm width and 75cm lenghth. after small investigation.it has been found that heat transfer is 3.5kW. Provide all assumptions used. 1.Draw a picture to represent the scenario 2.calculate convective heat transfer 3.Assuming that the hot plate is made of carbon steel (1%C) 2cm thick and that an additional 450kW is lost from the plate surface through radiation, calculate inside plate temperature

Hydraulic oil is flowing through a 80 mm diameter horizontal pipe with a flow rate of...

Hydraulic oil is flowing through a 80 mm diameter horizontal pipe with a flow rate of 1.5 litres per -3 second. At a certain point the diameter changes to 5 cm. Assume the oil’s density is 870 kg.m . (a) Calculate the velocity in SI units through the wider diameter section of the pipe. (b) Calculate the velocity in SI units through the narrower section of the pipe. (c) What is the pressure difference between the larger and smaller sections...

A process fluid having a specific heat of 3500 J/kg?K and flowing at 2 kg/s is...

A process fluid having a specific heat of 3500 J/kg?K and flowing at 2 kg/s is to be cooled from 80 °C to 40 °C with chilled water, which is supplied at a temperature of 15 °C and a flow rate of 2.5 kg/s. Assuming an overall heat transfer coefficient of 2000 W/m2?K, calculate the required heat transfer areas for the following exchanger configurations: (a) Parallel flow; (b) Counter flow; (c) a 1-2 shell and tube exchanger with the water...

4.1A membrane made of 0.1 mm thick soft rubber separates pure O2 at 1 atm and...

4.1A membrane made of 0.1 mm thick soft rubber separates pure O2 at 1 atm and 25oC from air at 1.2 atm pressure. Determine the mass flow rate of O2 through the membrane per unit area and the direction of flow. Molar flow rate of oxygen is given by: ???? = ???????? / ??? (????1 ? ????2 ) where S is solubility of oxygen in rubber. The mass diffusivity of oxygen in rubber at 298 K is DAB = 2.1...

A complex medium needs to be heated from 15°C to 37°C prior to use in mammalian...

A complex medium needs to be heated from 15°C to 37°C prior to use in mammalian cell culture. You are responsible for deciding the type of heat exchanger to adopt to achieve this heating. You are considering using a doublepipe heat exchanger with either co-current or counter-current flow. The medium flows through the inner tube and hot water enters the outer annulus at 80°C. You are given the following data: Cell culture medium: Mass flowrate = 2 kg s-1 Specific...

Calculate the mass flow rate of heating medium (water) required in pasteurization of 1000 kg/h milk...

Calculate the mass flow rate of heating medium (water) required in pasteurization of 1000 kg/h milk from 45°C to 72°C. Water enters heat exchanger at 90°C and leaves at 75°C. Heat loss from the exchanger to the ambience is estimated at 1 kJ/s. Take heat capacities of water and milk as 4.2 and 3.9 kJ/kg°C, respectively.

(a) Fluid at a mass flow rate of 0.352 kg/s flows through a tube with a...

(a) Fluid at a mass flow rate of 0.352 kg/s flows through a tube with a diameter of 15 mm and a length of 25 m. The inner surface of the tube is heated with a uniform heat flux of 1000 W/m2. Measurements shown that the inlet temperature of the fluid is 30 ˚C. Assume the outer surface of the tube is perfectly insulated. Consider the thermophysical properties of the fluid are as follows: density ρ = 1000 kg/m3, specific...

Water at a flow rate of 60 kg/s enters the shell-side of a baffled shell-and-tube heat...

Water at a flow rate of 60 kg/s enters the shell-side of a baffled shell-and-tube heat exchanger at 35 °C and leaves at 25 °C. The heat will be transferred to 150 kg/s of raw water coming from a supply at 15 °C. You are requested to design the heat exchanger for this purpose. A single shell and single tube pass is preferable. The tube diameter is ¾ in. (19 mm outer diameter with 16 mm inner diameter) and tubes...

MUST Answer Part A, B and C A) Calculate the rate of heat flow transferred through...

MUST Answer Part A, B and C A) Calculate the rate of heat flow transferred through an aluminum bar that is 25 square cm in cross section and 30 cm long. The thermal conductivity of the aluminum bar is ?? = 205 ??/(?? ? ??). The temperature at the hot end is 100°F while at the cold end is 20°F B) Blue light of wavelength 485 nm falls on a silicon photocell made from a semiconductor with bandgap is 1.35...