Industrial Plastics: Theory and Applications
6th Edition
ISBN: 9781285061238
Author: Lokensgard, Erik
Publisher: Delmar Cengage Learning
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Glass plant has the follownig manufacturing process in figure is the glass where the
produced glass contain the following composition: SiO2 72.5%, CaO 12.3% Na20 14.0%,
Fe203 0.8%, MgO 0.4% and the production capacity of the plant is 32000 ton /year and the
melting furnace consist the following reaction equations:
Na CO,+ aSiO, NagO aSiO + CO₂
(1)
CaCOy + b$iO, → CaO - bsiO, + CO,
(2)
Na,SO, + cSiO2 + C-Nago cSiO, + SO₂ + CO
(3)
The last reaction may take place as in equations (4) or (5), and (6):
Na₂SO, C Na₂SO3 + CO
2Na2SO4 + C
Na,SO+cSiO,
2Na₂SO3 + CO2
-
Na₂O eSiO2 + SO2
(5)
(6)
The ratios Na₂O/SiO, and CaO/SiO, are not molar ratios. The ratio may be of the type
Na O/1.8SiO,, for example. In an ordinary window glass the molar ratios are approximately
1.5 mol Nago, I mol CaO, and 5 mol SiO,. Other glasses vary widely (Table 11.2).…
1-A counterflow, concentric tube heat exchanger is used to cool the lubricating oil for a large
industrial gas
turbine engine. The flow rate of cooling water through the inner tube (Di = 25 mm) is
0.2 kg/s, while the flow rate of oil through the outer annulus (Do = 45 mm) is 0.1 kg/s. The oil and
water enter at temperatures of 100 and 30 C, respectively. The exit temperature of hot fluid and cold
fluid is 60 and 40 C. calculate the LMTD. Calculate the surface area of the heat exchanger. How
long must the tube?
Properties:
unused engine oil: cp = 2131 J/kg K, μ=3.25 ×10^-2 N.s/m^2, k = 0.138 W/m.K,
4178 J/kg .K, u= 725×10^-6 N.s/m2, k = 0.625 W/m.K, Pr = 4.85
water: cp
neer in which steam is condens
please... please. , how can I use the boundary conditions for this question (two fixed pates and the distance between plates is h).
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- Nonearrow_forwardAssignment 2. Example. The diffusivity of the vapour of a volatile liquid in air can be conveniently determined by Winkelmann's method in which liquid is contained in a narrow diameter vertical tube, maintained at a constant temperature, and an air stream is passed over the top of the tube sufficiently rapidly to ensure that the partial pressure of the vapour there remains approximately zero. On the assumption that the vapour is transferred from the surface of the liquid to the air stream by molecular diffusion, calculate the diffusivity of carbon tetrachloride vapour in air at 321 K and atmospheric pressure from the following experimental data: Time from commencement of experiment, (t x1 03 s) Liquid level (mm) 0.0 0.0 1.6 2.5 11.1 12.9 27.4 23-2 80-2 43.9 117.5 54-7 168.6 67.0 199.7 73-8 289-3 90-3 383-1 104.8 The vapour pressure of carbon tetrachloride at 321 K is 37.6 kN/m² and the density of the liquid is 1540 kg/m³. Take the kilogram molecular volume as 22.4 m³.arrow_forwardPlease.... please, provide me with full calculation (more details) because this question I sent it previously but I did not receive a good result yet.arrow_forward
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