In a solar water heater, energy from the Sun is gathered by water that circulates through...
In a solar water heater, energy from the Sun is gathered by water that circulates through tubes in a rooftop collector. The solar radiation enters the collector through a transparent cover and warms the water in the tubes; this water is pumped into a holding tank. Assume that the efficiency of the overall system is 29.0% (that is, 71% of the incident solar energy is lost from the system). What collector area is necessary to raise the temperature of 430 L of water in the tank from 19°C to 41°C in 2.1 h when the intensity of incident sunlight is 410 W/m2? The specific heat of water is 4186 J/kg·K. The density of water is 1.00 g/cm3.
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In a solar water heater, energy from the Sun is gathered by
water that circulates through...
In a solar water heater, energy from the Sun is gathered by water that circulates through...
In a solar water heater, energy from the Sun is gathered by water that circulates through tubes in a rooftop collector. The solar radiation enters the collector through a transparent cover and warms the water in the tubes; this water is pumped into a holding tank. Assume that the efficiency of the overall system is 29.0% (that is, 71% of the incident solar energy is lost from the system). What collector area is necessary to raise the temperature of 350...
In a solar water heater, energy from the Sun is gathered by water that circulates through...
In a solar water heater, energy from the Sun is gathered by water that circulates through tubes in a rooftop collector. The solar radiation enters the collector through a transparent cover and warms the water in the tubes; this water is pumped into a holding tank. Assume that the efficiency of the overall system is 28.0% (that is, 72% of the incident solar energy is lost from the system). What collector area is necessary to raise the temperature of 240...
Chapter 18, Problem 029 In a solar water heater, energy from the Sun is gathered by...
Chapter 18, Problem 029 In a solar water heater, energy from the Sun is gathered by water that circulates through tubes in a rooftop collector. The solar radiation enters the collector through a transparent cover and warms the water in the tubes; this water is pumped into a holding tank. Assume that the efficiency of the overall system is 14.0% (that is, 86% of the incident solar energy is lost from the system). What collector area is necessary to raise...
An unglazed flat plate solar water heater is orientated perpendicular to the sun such that the in...
An unglazed flat plate solar water heater is orientated perpendicular to the sun such that the incident radiation reaching the plate is 1100 W/m2. The plate has a semi selective coating such that the plate absorptivity and emissivity is equal to unity for all wavelengths up to 2µm, and 0.13 for all λ > 2µm. Coolant flowing in the collector tubes removes heat at such a rate as to maintain the plate temperature at 80°C. Considering the sun to be...
Solar Energy Engineering 1. Design a hot water system including the number of 4'x 8' solar...
Solar Energy Engineering
1. Design a hot water system including the number of 4'x 8' solar collectors for an average use for a household of 4 people in Orlando, Florida a. Determine the size of the solar hot water tank b. What is the net solar heat gain in January if the solar collector has an efficiency of 70% and it's installed at an angle of 20% from horizontal. c. What would be a better angle for January?
1. Design...
In a certain solar house, energy from the Sun is stored in barrels filled with water....
In a certain solar house, energy from the Sun is stored in barrels filled with water. In a particular winter stretch of five cloudy days, 1.34 × 106 kcal is needed to maintain the inside of the house at 22.3oC. Assuming that the water in the barrels is at 42.2oC and that the water has a density of 1.00 × 103 kg/m3, what volume of water is required? Take the specific heat of water to be 1.00 kcal/kg.
Chapter 18, Problem 029 In a solar water heater, energy from the Sun is gathered by water that circulates through tubes in a rooftop collector. The solar radiation enters the collector through a transparent cover and warms the water in the tubes; this water is pumped into a holding tank. Assume that the efficiency of the overall system is 14.0% (that is, 86% of the incident solar energy is lost from the system). What collector area is necessary to raise...
Solar Energy Engineering
1. Design a hot water system including the number of 4'x 8' solar collectors for an average use for a household of 4 people in Orlando, Florida a. Determine the size of the solar hot water tank b. What is the net solar heat gain in January if the solar collector has an efficiency of 70% and it's installed at an angle of 20% from horizontal. c. What would be a better angle for January?
1. Design...
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