I know this is a lot, i just need an outline and an example or two to show me how to get started.
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here i have provided you the equation of nodes in which you can put the values and solve it by any tool and then you can find the answer.
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I know this is a lot, i just need an outline and an example or
two...
To save time, I already have the equations, I just want to make sure my temperatures...
To save time, I already have the equations, I just want to make
sure my temperatures are correct (1-21) and i want to make sure my
q' is correct. Thank you
rectangular channels are machined. The blade, which has a thermal conductivity of k= 100 W/m-K, is 6mm thick, and each channel has a 2mm x 6mm rectangular cross section, with a 4-mm spacing between adjoining channels. Combustion gases Tooho Air channel Tojshi 2 mm 6 mm 6 mm 4...
please help explain in full detail and please solve using matlab if possible. thank you very...
please help explain in full detail and please solve using
matlab if possible. thank you very much!!
Two-Dimensional Steady Conduction - Gas turbine Engine Technologies (Gas Turbine Blades) A major objective in advancing gas turbine engine technologies is to increase the temperature limit associated with operation of the gas turbine blades. This limit determines the permissible turbine gas inlet temperature, which in turn, strongly influences overall system performance. In addition to fabricating turbine blades from special, high temperature, high-strength super...
A major objective in advancing gas turbine engine technologies is to increase the temperature limit associated...
A major objective in advancing gas turbine engine technologies is to increase the temperature limit associated with operation of the gas turbine blades. This limit determines the permissible turbine gas inlet temperature, which, in turn. strongly influences overall system performance. In addition to fabricating turbine blades from special, high-temperature, high-strength superalloys, it is common to use internal cooling by machining flow channels within the blades and routing air through the channels. We wish to assess the effect of such a...
I need a Matlab code for this problem with solution using matrixes please, thanks in advance.
I need a Matlab code for this problem with solution using
matrixes please, thanks in advance.
EXAMPLE 4.3 A major objective in advancing gas turbine engine technologies is to increase the temperature limit associated with operation of the gas turbine blades. This limit determines the permissible turbine gas inlet temperature, which, in turn, strongly influences overall system performance. In addition to fabricating turbine blades from special, high-temperature, high-strength superal- loys, it is common to use internal cooling by machining flow...
please help me as soon as possible [20] SECTION B (Attempt any one Question) a) A...
please help me as soon as possible
[20] SECTION B (Attempt any one Question) a) A turbine blade 6 cm long and having a cross sectional area 4.65 cm and perimeter 12 cm is made of stainless steel (k=23.3 W/mK). The temperature at the root is 500 °C. The blade is exposed to a hot gas at 870 °C. The heat transfer coefficient between the blade surface and gas is 442 W/mK. Determine the temperature distribution and rate of heat...
Exhaust combustion products flow through a concentric square composite (k = 0.85 W/m·K) channel of unit...
Exhaust combustion products flow through a concentric square composite (k = 0.85 W/m·K) channel of unit length. The edge of the outer square is b = 6 cm and the inner edge is a = 2 cm. The duct is placed in a corridor such that the air temperature is 300 K with a convection coefficient of 75 W/m2·K. The exhaust gases maintain a uniform inner channel surface temperature of 500 K. a) Using numerical methods, find the temperature distribution...
k=300 BRO p=2800 kg are m3 Aluminum Heat sinks of rectangular profile (k = 290 W...
k=300
BRO p=2800 kg are m3 Aluminum Heat sinks of rectangular profile (k = 290 W m-K c = 900 kg-K commonly used to remove heat from a surface whose temperature is Ts = 150°C. The temperature of the surrounding air is 20°C. The natural heat transfer coefficient associated with the surrounding air is h = 200 m2-K Determine the temperature distribution along a fin. W Alr Toogh 20 mm 3 5 150°C 90 mm Assumption: Steady State, Two-Dimensional Conduction...
Please show all work Turbine blade k-17 WIm-K p=11 cm, L = 53 cm Ac-5.13 cm...
Please show all work
Turbine blade k-17 WIm-K p=11 cm, L = 53 cm Ac-5.13 cm -T 450°C . A plane wall with surface temperature of 350°Cis at- tached with straight rectangular fins (k = 235 win-K). The fins are exposed to an ambient air condition of 25°C and the convection heat transfer coefficient is 154 W/m2-K. Each fin has a length of 50 mm, a base of 5 mm thick and a width of 100 mm. Determine the efficiency,...
A simplified representation for cooling in very large- scale integration (VLSI) of microelectronics is shown in...
A simplified representation for cooling in very large- scale integration (VLSI) of microelectronics is shown in the sketch below. A silicon chip is mounted in a dielectric substrate, and one surface of the system is convectively cooled, while the reminding surfaces are well insulated from the surrounding. The problem is rendered two dimensional by assuming the system to be very large in the direction perpendicular to the paper. Under steady state (1) and transient (2) operation electronic power dissipation in...
1. (10 points) A spherical thermocouple junction 1 mm in diameter is inserted in a combustion...
1. (10 points) A spherical thermocouple junction 1 mm in diameter is inserted in a combustion chamber to measure the temperature of the products of combustion. The hot gases are at 1000 K and have a velocity of 5 m/s. The thermocouple junction has an emissivity of 50% and the cooled walls of the combustor are at 500 K. The properties of the thermocouple junction are: p = 9000 kg/m”, Cp = 500 J/kg:K, k = 100 W/mK. The properties...
To save time, I already have the equations, I just want to make
sure my temperatures are correct (1-21) and i want to make sure my
q' is correct. Thank you
rectangular channels are machined. The blade, which has a thermal conductivity of k= 100 W/m-K, is 6mm thick, and each channel has a 2mm x 6mm rectangular cross section, with a 4-mm spacing between adjoining channels. Combustion gases Tooho Air channel Tojshi 2 mm 6 mm 6 mm 4...
please help explain in full detail and please solve using
matlab if possible. thank you very much!!
Two-Dimensional Steady Conduction - Gas turbine Engine Technologies (Gas Turbine Blades) A major objective in advancing gas turbine engine technologies is to increase the temperature limit associated with operation of the gas turbine blades. This limit determines the permissible turbine gas inlet temperature, which in turn, strongly influences overall system performance. In addition to fabricating turbine blades from special, high temperature, high-strength super...
A major objective in advancing gas turbine engine technologies is to increase the temperature limit associated with operation of the gas turbine blades. This limit determines the permissible turbine gas inlet temperature, which, in turn. strongly influences overall system performance. In addition to fabricating turbine blades from special, high-temperature, high-strength superalloys, it is common to use internal cooling by machining flow channels within the blades and routing air through the channels. We wish to assess the effect of such a...
I need a Matlab code for this problem with solution using
matrixes please, thanks in advance.
EXAMPLE 4.3 A major objective in advancing gas turbine engine technologies is to increase the temperature limit associated with operation of the gas turbine blades. This limit determines the permissible turbine gas inlet temperature, which, in turn, strongly influences overall system performance. In addition to fabricating turbine blades from special, high-temperature, high-strength superal- loys, it is common to use internal cooling by machining flow...
please help me as soon as possible
[20] SECTION B (Attempt any one Question) a) A turbine blade 6 cm long and having a cross sectional area 4.65 cm and perimeter 12 cm is made of stainless steel (k=23.3 W/mK). The temperature at the root is 500 °C. The blade is exposed to a hot gas at 870 °C. The heat transfer coefficient between the blade surface and gas is 442 W/mK. Determine the temperature distribution and rate of heat...
k=300
BRO p=2800 kg are m3 Aluminum Heat sinks of rectangular profile (k = 290 W m-K c = 900 kg-K commonly used to remove heat from a surface whose temperature is Ts = 150°C. The temperature of the surrounding air is 20°C. The natural heat transfer coefficient associated with the surrounding air is h = 200 m2-K Determine the temperature distribution along a fin. W Alr Toogh 20 mm 3 5 150°C 90 mm Assumption: Steady State, Two-Dimensional Conduction...
Please show all work
Turbine blade k-17 WIm-K p=11 cm, L = 53 cm Ac-5.13 cm -T 450°C . A plane wall with surface temperature of 350°Cis at- tached with straight rectangular fins (k = 235 win-K). The fins are exposed to an ambient air condition of 25°C and the convection heat transfer coefficient is 154 W/m2-K. Each fin has a length of 50 mm, a base of 5 mm thick and a width of 100 mm. Determine the efficiency,...
A simplified representation for cooling in very large- scale integration (VLSI) of microelectronics is shown in the sketch below. A silicon chip is mounted in a dielectric substrate, and one surface of the system is convectively cooled, while the reminding surfaces are well insulated from the surrounding. The problem is rendered two dimensional by assuming the system to be very large in the direction perpendicular to the paper. Under steady state (1) and transient (2) operation electronic power dissipation in...
1. (10 points) A spherical thermocouple junction 1 mm in diameter is inserted in a combustion chamber to measure the temperature of the products of combustion. The hot gases are at 1000 K and have a velocity of 5 m/s. The thermocouple junction has an emissivity of 50% and the cooled walls of the combustor are at 500 K. The properties of the thermocouple junction are: p = 9000 kg/m”, Cp = 500 J/kg:K, k = 100 W/mK. The properties...
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