In an electrically heated home, the temperature of the ground in contact with a concrete basement...
In an electrically heated home, the temperature of the ground in contact with a concrete basement wall is 12.3 oC. The temperature at the inside surface of the wall is 20.1 oC. The wall is 0.16 m thick and has an area of 6.1 m2. Assume that one kilowatt hour of electrical energy costs $0.10. How many hours are required for one dollar's worth of energy to be conducted through the wall?
2. In an electrically heated home, the temperature of the ground in con tact with a concrete basement wall is 12.8 ℃. The temperature at the inside surface of the wall is 20.0 °C. The wall is 0.10 m thick and has a area of 9.0 m2. Assume that one kilowatt hour of electrical energy costs 0.10. How many hours are required for one dollar's worth of energy to be conducted through the wall? 2. In an electrically heated home,...
Chapter 13, Problem 01 The amount of heat per second conducted from the blood capillaries beneath the skin to the surface is 280 J/s. The energy is transferred a distance of 2.1 × 10-3 m through a body whose surface area is 1.8 m2. Assuming that the thermal conductivity is that of body fat, determine the temperature difference between the capillaries and the surface of the skin. Chapter 13, Problem 02 In an electrically heated home, the temperature of the...
The concrete wall of a building is 0.132 m thick. The temperature inside the building is 23.8 °C, while the temperature outside is 0.0 °C. Heat is conducted through the wall. The outside of the wall loses the energy only due to radiation. What is the emissivity of the wall?
ASSIGNMENT 1 Example below was discussed in class The roof of an electrically heated home is 6 m long, 8 m wide, and 0.25m thick, and is made of a flat layer of concrete whose thermal conductivity is k = 0,8 W/m.K. The temperature of the inner and the outer surfaces of the roof one night are measured to be 15°C and 4°C, respectively for a period of 10 hours. Determine (a) The rate of heat loss through the roof...
Thermal Storage Solar heating of a house is much more efficient if there is a way to store the thermal energy collected during the day to warm the house at night. Suppose one solar-heated home utilizes a concrete slab of area 11 m2 and 26 cm thick. If the density of concrete is 2400 kg/m3, what is the mass of the slab? The slab is exposed to sunlight and absorbs energy at a rate of 1.2 ×107J/h for 10 h....
Homework 7 heat transfer 2018-20 1) A horizontal tube of 12.5-mm dimeter with an outer srface temperature of 240°C is placed in a room with an air temperature of 20°C. Estimate the heat transfer rate per unit length of the tube due to free convection. 2) Air at -10°C flows at 10 m/s over the roof plate of two 5m length rooms whose air is at Too-200C. The roof plate is 0.20-m thick concrete (k = 0.6 w/ m. K)....
summarizr the followung info and write them in your own words and break them into different key points. 6.5 Metering Chamber: 6.5.1 The minimum size of the metering box is governed by the metering area required to obtain a representative test area for the specimen (see 7.2) and for maintenance of reasonable test accuracy. For example, for specimens incorporating air spaces or stud spaces, the metering area shall span an integral number of spaces (see 5.5). The depth of...
summatize the following info and break them into differeng key points. write them in yojr own words apartus 6.1 Introduction—The design of a successful hot box appa- ratus is influenced by many factors. Before beginning the design of an apparatus meeting this standard, the designer shall review the discussion on the limitations and accuracy, Section 13, discussions of the energy flows in a hot box, Annex A2, the metering box wall loss flow, Annex A3, and flanking loss, Annex...