A given fuel cell has continuous 150 A DC, an operating voltage of 0.55 V, and...
A given fuel cell has continuous 150 A DC, an operating voltage of 0.55 V, and an overall internal resistance of 3 mΩ at 1.4 A/cm^2 current density.
What is the total electrical work produced in 2 hours?
(a) 569 kj
(b) 396 kj
(c) 359 kj
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A given fuel cell has continuous 150 A DC, an operating voltage
of 0.55 V, and...
A given fuel cell has continuous 150 A DC, an operating voltage of 0.55 V, and...
A given fuel cell has continuous 150 A DC, an operating voltage of 0.55 V, and an overall internal resistance of 3 mΩ at 1.4 A/cm^2 current density. Calculate the potential loss from ohmic resistance, in volts, at this condition. (choose one of the following). (a) 1.05 V (b) 0.50 V (c) 0.55 V
could you please help me go through these Two similar questions with a detailed explanation? Many thanks A photo voltaic cell generates an open circuit voltage of 0.72 V and a short circuit curr...
could you please help me go through these Two similar questions
with a detailed explanation?
Many thanks
A photo voltaic cell generates an open circuit voltage of 0.72 V and a short circuit current of 350 mA whenmiated by light wi ketch the V-I characteristic of the cell under these conditions. Estimate the open circuit voltage and the short circuit current when illuminated by a light with power density of 600 Wm 8. ith power density 1000 Wms 3. The...
Consider a 3-phase inverter with a delta-connected load operating from a 150 V DC input voltage....
Consider a 3-phase inverter with a delta-connected load operating from a 150 V DC input voltage. The AC load consists of 3 identical impedances with R = 6 Ω and L = 30 mH and a frequency of 60 hz. a. Determine the RMS line voltage VAB. b. Obtain mathematical expressions for each phase of the load currents, IAB, IBC, and ICA.
4.4 A fuel cell operates at 60°C and ambient pressure. Exchange current density, io is 0.005...
4.4 A fuel cell operates at 60°C and ambient pressure. Exchange current density, io is 0.005 mA/cm. Assume charge transfer coefficient to be 1.0. a) Calculate the activation voltage losses at 1.5A/cm. b) If the resistive losses at 1.5A/cm are 1/2 of the activation losses, calculate the cell resistance, R. c) Assume no concentration polarization losses and calculate cell voltage at 1.5A/cm, at 1 A/cm', and at 0.5 A/cm.
a9a resistive load. Inductor 3-(35 pts) Design a converter that has an input voltage of 24 V DC and supplies 18 V DC to current is desired to be continuous and must not change more than 30 % of i...
a9a resistive load. Inductor 3-(35 pts) Design a converter that has an input voltage of 24 V DC and supplies 18 V DC to current is desired to be continuous and must not change more than 30 % of its average value voltage ripple must be lower than 2 %. Switching frequency is 10 kHz. a) Draw the circuit diagram. Calculate the duty ratio. Calculate values for 2 desired conditions of the inductor current and determine the value of the...
Q1. You are given a 12 V DC power supply. You are expected to develop a voltage divider to achieve a voltage of no...
Q1. You are given a 12 V DC power supply. You are expected to develop a voltage divider to achieve a voltage of nominal 5V value using a pair of resistors from the E 12 range, with the restrition that you are not expected to draw a current of more than 1 mA from the 12 V DC supply i. Develop a simple circuit showing the possible values for each resistor pair, and the range of the DC output possible...
A PV array with terminal voltage around 48 V under standard conditions is connected to a step-up dc-dc converter to supply a load at 120 V, 5 A. The input inductance is 8 mH with an internal resistanc...
A PV array with terminal voltage around 48 V under standard conditions is connected to a step-up dc-dc converter to supply a load at 120 V, 5 A. The input inductance is 8 mH with an internal resistance of 0.2 ohms, and the switching frequency is 5 kHz. Assuming ideal circuit components, calculate the duty ratio (k) and average input current (I1). Evaluate the maximum peak-to-peak input current ripple for the converter. If this current is limited to 2% of...
A 8250 w shunt DC motor has a terminal voltage of 300 V. A field resistance...
A 8250 w shunt DC motor has a terminal voltage of 300 V. A field resistance Rf of 40 Ω, and an armature resistance Ra of 250 mm2. The field winding has 1500 turns. An adjustable resistance Rad is connected in series to the field winding. Rad is set at 20 Ω, but it can vary from 0 to 80 Ω. The magnetization curve is shown in Figure.1 and it is taken at a speed of 1200 rpm. (Armature reaction...
6. The speed of a 150 HP, 650 V, 1750 rpm, separately excited DC motor is...
6. The speed of a 150 HP, 650 V, 1750 rpm, separately excited DC motor is controlled by a 3- phase full converter. The converter is operating from 3-phase, 460 V, 50 Hz supply. The rated armature current of the motor is 170 A. The motor parameters are Ra = 0.099 2, La = 0.73 mH, and K.D=0.33 V/rpm. Neglect the losses in converter system. Determine i. No-load speed at firing angles a = 0º and a = 30°. Assume...
Q1 [35] DC shunt motor has the following parameters: 10,1 kW, 150 V, 805 rpm, R=0.212,...
Q1 [35] DC shunt motor has the following parameters: 10,1 kW, 150 V, 805 rpm, R=0.212, R=200 2. When the motor is not loaded it draws 10 A from the voltage source of 150 V. a) [10]Calculate the efficiency at full load, rotating at 805 rpm. b) [10] Calculate the torque when there is no load on the rotor. c) [15] If total torque on the rotor is 91 Nm, calculate the control resistance of the armature to set the...
could you please help me go through these Two similar questions
with a detailed explanation?
Many thanks
A photo voltaic cell generates an open circuit voltage of 0.72 V and a short circuit current of 350 mA whenmiated by light wi ketch the V-I characteristic of the cell under these conditions. Estimate the open circuit voltage and the short circuit current when illuminated by a light with power density of 600 Wm 8. ith power density 1000 Wms 3. The...
4.4 A fuel cell operates at 60°C and ambient pressure. Exchange current density, io is 0.005 mA/cm. Assume charge transfer coefficient to be 1.0. a) Calculate the activation voltage losses at 1.5A/cm. b) If the resistive losses at 1.5A/cm are 1/2 of the activation losses, calculate the cell resistance, R. c) Assume no concentration polarization losses and calculate cell voltage at 1.5A/cm, at 1 A/cm', and at 0.5 A/cm.
a9a resistive load. Inductor 3-(35 pts) Design a converter that has an input voltage of 24 V DC and supplies 18 V DC to current is desired to be continuous and must not change more than 30 % of its average value voltage ripple must be lower than 2 %. Switching frequency is 10 kHz. a) Draw the circuit diagram. Calculate the duty ratio. Calculate values for 2 desired conditions of the inductor current and determine the value of the...
Q1. You are given a 12 V DC power supply. You are expected to develop a voltage divider to achieve a voltage of nominal 5V value using a pair of resistors from the E 12 range, with the restrition that you are not expected to draw a current of more than 1 mA from the 12 V DC supply i. Develop a simple circuit showing the possible values for each resistor pair, and the range of the DC output possible...
A 8250 w shunt DC motor has a terminal voltage of 300 V. A field resistance Rf of 40 Ω, and an armature resistance Ra of 250 mm2. The field winding has 1500 turns. An adjustable resistance Rad is connected in series to the field winding. Rad is set at 20 Ω, but it can vary from 0 to 80 Ω. The magnetization curve is shown in Figure.1 and it is taken at a speed of 1200 rpm. (Armature reaction...
6. The speed of a 150 HP, 650 V, 1750 rpm, separately excited DC motor is controlled by a 3- phase full converter. The converter is operating from 3-phase, 460 V, 50 Hz supply. The rated armature current of the motor is 170 A. The motor parameters are Ra = 0.099 2, La = 0.73 mH, and K.D=0.33 V/rpm. Neglect the losses in converter system. Determine i. No-load speed at firing angles a = 0º and a = 30°. Assume...
Q1 [35] DC shunt motor has the following parameters: 10,1 kW, 150 V, 805 rpm, R=0.212, R=200 2. When the motor is not loaded it draws 10 A from the voltage source of 150 V. a) [10]Calculate the efficiency at full load, rotating at 805 rpm. b) [10] Calculate the torque when there is no load on the rotor. c) [15] If total torque on the rotor is 91 Nm, calculate the control resistance of the armature to set the...
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