explain how the slow cooling process was achieved for steel

Heat Removal of a Cooling Coil. A cooling coil of 1.0 ft of 304 stainless-steel tubing...

Heat Removal of a Cooling Coil. A cooling coil of 1.0 ft of 304 stainless-steel tubing having an inside diameter of 0.25 in. and an outside diameter of 0.40 in. is being used to remove heat from a bath. The temperature at the inside surface of the tube is 40 degrees fahrenheit and is 80 degrees fahrenheit on the outside. The thermal conductivity of 304 stainless steel is a function of temperature: k=7.75+7.78 x 10^-3T where k is in btu/h*ft*fahrenheit...

Explain in detail the the aspect below of the steel structure design process with respect to...

Explain in detail the the aspect below of the steel structure design process with respect to mill type industrial building with multiple bays: The choice of utilising shop or site connection of the building's steel structural components.

in linear expansion, the data collected in the cooling down process because in heating process the...

in linear expansion, the data collected in the cooling down process because in heating process the thermal expansion and temprature change rapidly so it cant be collected in the cooling down process because in heating process the thermal expansion and temprature change rapidly so it cant be collected? True or False

Please explain why is important to plan the demand, and how is demand planning achieved?

Please explain why is important to plan the demand, and how is demand planning achieved?

“How can efficiency and fairness be achieved in the US Economy?” Can you explain in 4...

“How can efficiency and fairness be achieved in the US Economy?” Can you explain in 4 paragraphs?

Explain how smoothing of a surface is achieved and its purpose. Give two applications of smoothing...

Explain how smoothing of a surface is achieved and its purpose. Give two applications of smoothing a surface in industry.

For a steel material of hypoeutectoid composition sketch a typical continuous cooling transformation diagram, label all...

For a steel material of hypoeutectoid composition sketch a typical continuous cooling transformation diagram, label all regions. On the diagram, starting from austenite, sketch and label paths that will yield: a) ferrite and coarse pearlite b) ferrite, fine pearlite, and martensite c) martensite

The pumping cost for delivering water from the Ohio River to Wheeling Steel for cooling hot...

The pumping cost for delivering water from the Ohio River to Wheeling Steel for cooling hot rolled steel was $1.8 million for the first 4 years. An effective energy conservation program resulted in a reduced cost of $1.77 million in year 5, and $1.74 million in year 6, and amounts decreasing by $30,000 each year through year 10. What is the present worth of the pumping costs in year 0 at an interest rate of 6% per year? The present...

A steel strip emerges from a hot roll section of a steel mill at speed of...

A steel strip emerges from a hot roll section of a steel mill at speed of 20 m/s and temperature of 1200 K. Its length and thickness are L = 100 m and  = 0.005 m, respectively, and its density and specific heat are 7900 kg/m3 and 640 J/kg-K, respectively. Accounting for heat transfer from the top and bottom surfaces and neglecting radiation and conduction along the strip, (1) determine the time rate of change of the strip temperature...

Newton’s Law of Cooling and the Ornstein-Uhlenbeck Process The Law of Cooling says the temperature difference...

Newton’s Law of Cooling and the Ornstein-Uhlenbeck Process The Law of Cooling says the temperature difference between an object (say a hot cup of coffee) and the ambient temperature (the temperature in the room) declines exponentially: If T(t) is the temperature of the object at time t, we have the ODE: d/dt(T(t) – Troom) = b (T(t) – Troom)    b < 0, Troom is a constant. Equivalently,   dT/dt = b (T – Troom) T(0) is the starting temperature of the...