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Find: Daily Pumping Cost [$]
Δh $50 $100 $250 $500 fresh L s Q=500 Find the daily pumping cost, in dollars. [pause] In this problem, --- water η = 70% Δh = 30 [m] energy =$0.10 [kWh-1] cost
![Find: Daily Pumping Cost [$]](http://slideplayer.com/slide/15896735/88/images/1/Find%3A+Daily+Pumping+Cost+%5B%24%5D.jpg "Δh. $50. $100. $250. $500. fresh. L. s. Q=500. Find the daily pumping cost, in dollars. [pause] In this problem, --- water. η = 70% Δh = 30 [m] energy. =$0.10 [kWh-1] cost.")
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Find: Daily Pumping Cost [$]
Δh $50 $100 $250 $500 fresh L s Q=500 fresh water is pumped at 500 liters per second, from a lower reservoir to a higher reservoir. water η = 70% Δh = 30 [m] energy =$0.10 [kWh-1] cost
![Find: Daily Pumping Cost [$]](http://slideplayer.com/slide/15896735/88/images/2/Find%3A+Daily+Pumping+Cost+%5B%24%5D.jpg "Δh. $50. $100. $250. $500. fresh. L. s. Q=500. fresh water is pumped at 500 liters per second, from a lower reservoir to a higher reservoir. water. η = 70% Δh = 30 [m] energy. =$0.10 [kWh-1] cost.")
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Find: Daily Pumping Cost [$]
Δh $50 $100 $250 $500 fresh L s Q=500 The change in head, efficiency, and energy cost are provided in the problem statement. [pause] The daily pumping cost equals ---- water η = 70% Δh = 30 [m] energy =$0.10 [kWh-1] cost
![Find: Daily Pumping Cost [$]](http://slideplayer.com/slide/15896735/88/images/3/Find%3A+Daily+Pumping+Cost+%5B%24%5D.jpg "Δh. $50. $100. $250. $500. fresh. L. s. Q=500. The change in head, efficiency, and energy cost are provided in the problem statement. [pause] The daily pumping cost equals ---- water. η = 70% Δh = 30 [m] energy. =$0.10 [kWh-1] cost.")
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= Find: Daily Pumping Cost [$] * η = 70% fresh water Δh energy daily
used * cost cost per day fresh L s Q=500 the energy used per day, multiplied by the cost of energy. The problem provides --- water η = 70% Δh = 30 [m] energy =$0.10 [kWh-1] cost
![= Find: Daily Pumping Cost [$] * η = 70% fresh water Δh energy daily](http://slideplayer.com/slide/15896735/88/images/4/%3D+Find%3A+Daily+Pumping+Cost+%5B%24%5D+%2A+%CE%B7+%3D+70%25+fresh+water+%CE%94h+energy+daily.jpg "used. * cost. cost. per day. fresh. L. s. Q=500. the energy used per day, multiplied by the cost of energy. The problem provides --- water. η = 70% Δh = 30 [m] energy. =$0.10 [kWh-1] cost.")
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= Find: Daily Pumping Cost [$] * η = 70% fresh water Δh energy daily
used * cost cost per day fresh L s Q=500 the cost of energy, as 10 cents per kilowatt-hour, so, we’re left to determine --- water η = 70% Δh = 30 [m] energy =$0.10 [kWh-1] cost
![= Find: Daily Pumping Cost [$] * η = 70% fresh water Δh energy daily](http://slideplayer.com/slide/15896735/88/images/5/%3D+Find%3A+Daily+Pumping+Cost+%5B%24%5D+%2A+%CE%B7+%3D+70%25+fresh+water+%CE%94h+energy+daily.jpg "used. * cost. cost. per day. fresh. L. s. Q=500. the cost of energy, as 10 cents per kilowatt-hour, so, we’re left to determine --- water. η = 70% Δh = 30 [m] energy. =$0.10 [kWh-1] cost.")
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? = Find: Daily Pumping Cost [$] * η = 70% fresh water Δh energy daily
used * cost cost per day fresh L s Q=500 the energy used by the pump, for a duration of 1 day. [pause] water η = 70% Δh = 30 [m] energy =$0.10 [kWh-1] cost
![= Find: Daily Pumping Cost [$] * η = 70% fresh water Δh energy daily](http://slideplayer.com/slide/15896735/88/images/6/%3D+Find%3A+Daily+Pumping+Cost+%5B%24%5D+%2A+%CE%B7+%3D+70%25+fresh+water+%CE%94h+energy+daily.jpg "used. * cost. cost. per day. fresh. L. s. Q=500. the energy used by the pump, for a duration of 1 day. [pause] water. η = 70% Δh = 30 [m] energy. =$0.10 [kWh-1] cost.")
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? Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water energy Δh
used per day E=P * t fresh L s Q=500 Energy can be calculated as power times time, where we know --- water η = 70% Δh = 30 [m] energy =$0.10 [kWh-1] cost
![Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water energy Δh](http://slideplayer.com/slide/15896735/88/images/7/Find%3A+Daily+Pumping+Cost+%5B%24%5D+%CE%B7+%3D+70%25+E%3DP+%2A+t+fresh+water+energy+%CE%94h.jpg "used. per day. E=P * t. fresh. L. s. Q=500. Energy can be calculated as power times time, where we know --- water. η = 70% Δh = 30 [m] energy. =$0.10 [kWh-1] cost.")
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? Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water energy Δh
used per day E=P * t 24 [hr] fresh L s Q=500 the time duration to be 1 day, or, 24 hours, --- water η = 70% Δh = 30 [m] energy =$0.10 [kWh-1] cost
![Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water energy Δh](http://slideplayer.com/slide/15896735/88/images/8/Find%3A+Daily+Pumping+Cost+%5B%24%5D+%CE%B7+%3D+70%25+E%3DP+%2A+t+fresh+water+energy+%CE%94h.jpg "used. per day. E=P * t. 24 [hr] fresh. L. s. Q=500. the time duration to be 1 day, or, 24 hours, --- water. η = 70% Δh = 30 [m] energy. =$0.10 [kWh-1] cost.")
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? Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water
energy ? Δh used per day E=P * t 24 [hr] fresh L s Q=500 and the power, in kilowatts, equals 9.81 times ---- water 9.81 * Δh * Q * SG P= η = 70% 1,000 * η Δh = 30 [m] energy [kW] =$0.10 [kWh-1] cost
![Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water](http://slideplayer.com/slide/15896735/88/images/9/Find%3A+Daily+Pumping+Cost+%5B%24%5D+%CE%B7+%3D+70%25+E%3DP+%2A+t+fresh+water.jpg "energy. Δh. used. per day. E=P * t. 24 [hr] fresh. L. s. Q=500. and the power, in kilowatts, equals 9.81 times ---- water * Δh * Q * SG. P= η = 70% 1,000 * η. Δh = 30 [m] energy. [kW] =$0.10 [kWh-1] cost.")
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? Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water
energy ? Δh used per day E=P * t 24 [hr] lift [m] fresh L s Q=500 the change in head, in meters, also referred to as the lift, times --- water 9.81 * Δh * Q * SG P= η = 70% 1,000 * η Δh = 30 [m] energy [kW] =$0.10 [kWh-1] cost
![Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water](http://slideplayer.com/slide/15896735/88/images/10/Find%3A+Daily+Pumping+Cost+%5B%24%5D+%CE%B7+%3D+70%25+E%3DP+%2A+t+fresh+water.jpg "energy. Δh. used. per day. E=P * t. 24 [hr] lift [m] fresh. L. s. Q=500. the change in head, in meters, also referred to as the lift, times --- water * Δh * Q * SG. P= η = 70% 1,000 * η. Δh = 30 [m] energy. [kW] =$0.10 [kWh-1] cost.")
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? Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water
energy ? Δh used per day E=P * t 24 [hr] flowrate [l/s] lift [m] fresh L s Q=500 the flowrate, in liters per second, times the --- water 9.81 * Δh * Q * SG P= η = 70% 1,000 * η Δh = 30 [m] energy [kW] =$0.10 [kWh-1] cost
![Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water](http://slideplayer.com/slide/15896735/88/images/11/Find%3A+Daily+Pumping+Cost+%5B%24%5D+%CE%B7+%3D+70%25+E%3DP+%2A+t+fresh+water.jpg "energy. Δh. used. per day. E=P * t. 24 [hr] flowrate [l/s] lift [m] fresh. L. s. Q=500. the flowrate, in liters per second, times the --- water * Δh * Q * SG. P= η = 70% 1,000 * η. Δh = 30 [m] energy. [kW] =$0.10 [kWh-1] cost.")
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? Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water
energy ? Δh used per day E=P * t 24 [hr] flowrate [l/s] lift [m] fresh L s Q=500 specific gravity of the fluid being pumped, all divided by --- water 9.81 * Δh * Q * SG P= η = 70% 1,000 * η Δh = 30 [m] energy [kW] specific =$0.10 [kWh-1] cost gravity
![Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water](http://slideplayer.com/slide/15896735/88/images/12/Find%3A+Daily+Pumping+Cost+%5B%24%5D+%CE%B7+%3D+70%25+E%3DP+%2A+t+fresh+water.jpg "energy. Δh. used. per day. E=P * t. 24 [hr] flowrate [l/s] lift [m] fresh. L. s. Q=500. specific gravity of the fluid being pumped, all divided by --- water * Δh * Q * SG. P= η = 70% 1,000 * η. Δh = 30 [m] energy. [kW] specific. =$0.10 [kWh-1] cost. gravity.")
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? Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water
energy ? Δh used per day E=P * t 24 [hr] flowrate [l/s] lift [m] fresh L s Q=500 1,000 times the efficiency, as a decimal. For this problem, we’re neglecting friction losses, since non are mentioned in the problem. Also, other pump power formulas --- water 9.81 * Δh * Q * SG P= η = 70% 1,000 * η Δh = 30 [m] energy [kW] specific =$0.10 [kWh-1] cost gravity efficiency
![Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water](http://slideplayer.com/slide/15896735/88/images/13/Find%3A+Daily+Pumping+Cost+%5B%24%5D+%CE%B7+%3D+70%25+E%3DP+%2A+t+fresh+water.jpg "energy. Δh. used. per day. E=P * t. 24 [hr] flowrate [l/s] lift [m] fresh. L. s. Q=500. 1,000 times the efficiency, as a decimal. For this problem, we’re neglecting friction losses, since non are mentioned in the problem. Also, other pump power formulas --- water * Δh * Q * SG. P= η = 70% 1,000 * η. Δh = 30 [m] energy. [kW] specific. =$0.10 [kWh-1] cost. gravity. efficiency.")
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? Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water
energy ? Δh used per day E=P * t 24 [hr] flowrate [l/s] lift [m] fresh L s Q=500 can be derived for different units than kilowatts, meters or liters per second, as are used in this equation. [pause] The values for ---- water 9.81 * Δh * Q * SG P= η = 70% 1,000 * η Δh = 30 [m] energy [kW] specific =$0.10 [kWh-1] cost gravity efficiency
![Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water](http://slideplayer.com/slide/15896735/88/images/14/Find%3A+Daily+Pumping+Cost+%5B%24%5D+%CE%B7+%3D+70%25+E%3DP+%2A+t+fresh+water.jpg "energy. Δh. used. per day. E=P * t. 24 [hr] flowrate [l/s] lift [m] fresh. L. s. Q=500. can be derived for different units than kilowatts, meters or liters per second, as are used in this equation. [pause] The values for ---- water * Δh * Q * SG. P= η = 70% 1,000 * η. Δh = 30 [m] energy. [kW] specific. =$0.10 [kWh-1] cost. gravity. efficiency.")
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? Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water
energy ? Δh used per day E=P * t 24 [hr] fresh L Q=500 lift, flowrate and efficiency are plugged into the equation, and the specific gravity of fresh water --- water 9.81 * Δh * Q * SG s P= η = 70% 1,000 * η Δh = 30 [m] energy 0.70 =$0.10 [kWh-1] cost
![Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water](http://slideplayer.com/slide/15896735/88/images/15/Find%3A+Daily+Pumping+Cost+%5B%24%5D+%CE%B7+%3D+70%25+E%3DP+%2A+t+fresh+water.jpg "energy. Δh. used. per day. E=P * t. 24 [hr] fresh. L. Q=500. lift, flowrate and efficiency are plugged into the equation, and the specific gravity of fresh water --- water * Δh * Q * SG. s. P= η = 70% 1,000 * η. Δh = 30 [m] energy =$0.10 [kWh-1] cost.")
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? Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water
energy ? Δh used per day E=P * t 24 [hr] 1.00 fresh L Q=500 is 1, and is also plugged in. The power used by the pump --- water 9.81 * Δh * Q * SG s P= η = 70% 1,000 * η Δh = 30 [m] energy 0.70 =$0.10 [kWh-1] cost
![Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water](http://slideplayer.com/slide/15896735/88/images/16/Find%3A+Daily+Pumping+Cost+%5B%24%5D+%CE%B7+%3D+70%25+E%3DP+%2A+t+fresh+water.jpg "energy. Δh. used. per day. E=P * t. 24 [hr] fresh. L. Q=500. is 1, and is also plugged in. The power used by the pump --- water * Δh * Q * SG. s. P= η = 70% 1,000 * η. Δh = 30 [m] energy =$0.10 [kWh-1] cost.")
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? Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water
energy ? Δh used per day E=P * t 24 [hr] 1.00 fresh L Q=500 equals kilowatts. [pause] Multiplying the power, --- water 9.81 * Δh * Q * SG s P= η = 70% 1,000 * η Δh = 30 [m] P=210.2 [kW] energy =$0.10 [kWh-1] cost
![Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water](http://slideplayer.com/slide/15896735/88/images/17/Find%3A+Daily+Pumping+Cost+%5B%24%5D+%CE%B7+%3D+70%25+E%3DP+%2A+t+fresh+water.jpg "energy. Δh. used. per day. E=P * t. 24 [hr] fresh. L. Q=500. equals kilowatts. [pause] Multiplying the power, --- water * Δh * Q * SG. s. P= η = 70% 1,000 * η. Δh = 30 [m] P=210.2 [kW] energy. =$0.10 [kWh-1] cost.")
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? Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water
energy ? Δh used per day E=P * t 24 [hr] 1.00 fresh L Q=500 by 24 hours in a day, the energy used per day equals --- water 9.81 * Δh * Q * SG s P= η = 70% 1,000 * η Δh = 30 [m] P=210.2 [kW] energy =$0.10 [kWh-1] cost
![Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water](http://slideplayer.com/slide/15896735/88/images/18/Find%3A+Daily+Pumping+Cost+%5B%24%5D+%CE%B7+%3D+70%25+E%3DP+%2A+t+fresh+water.jpg "energy. Δh. used. per day. E=P * t. 24 [hr] fresh. L. Q=500. by 24 hours in a day, the energy used per day equals --- water * Δh * Q * SG. s. P= η = 70% 1,000 * η. Δh = 30 [m] P=210.2 [kW] energy. =$0.10 [kWh-1] cost.")
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? Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water
energy ? Δh used per day E=P * t 24 [hr] 1.00 fresh L Q=500 5,045 kilowatt-hours. [pause] water 9.81 * Δh * Q * SG s P= η = 70% 1,000 * η Δh = 30 [m] P=210.2 [kW] energy =$0.10 [kWh-1] cost E=5,045 [kWh]
![Find: Daily Pumping Cost [$] η = 70% E=P * t fresh water](http://slideplayer.com/slide/15896735/88/images/19/Find%3A+Daily+Pumping+Cost+%5B%24%5D+%CE%B7+%3D+70%25+E%3DP+%2A+t+fresh+water.jpg "energy. Δh. used. per day. E=P * t. 24 [hr] fresh. L. Q=500. 5,045 kilowatt-hours. [pause] water * Δh * Q * SG. s. P= η = 70% 1,000 * η. Δh = 30 [m] P=210.2 [kW] energy. =$0.10 [kWh-1] cost. E=5,045 [kWh]")
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= Find: Daily Pumping Cost [$] * η = 70% fresh water Δh energy daily
used * cost cost per day fresh L Q=500 The daily pumping costs can be found by multiplying --- water s η = 70% Δh = 30 [m] energy =$0.10 [kWh-1] cost E=5,045 [kWh]
![= Find: Daily Pumping Cost [$] * η = 70% fresh water Δh energy daily](http://slideplayer.com/slide/15896735/88/images/20/%3D+Find%3A+Daily+Pumping+Cost+%5B%24%5D+%2A+%CE%B7+%3D+70%25+fresh+water+%CE%94h+energy+daily.jpg "used. * cost. cost. per day. fresh. L. Q=500. The daily pumping costs can be found by multiplying --- water. s. η = 70% Δh = 30 [m] energy. =$0.10 [kWh-1] cost. E=5,045 [kWh]")
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= Find: Daily Pumping Cost [$] * η = 70% fresh water Δh energy daily
used * cost cost per day fresh L Q=500 the daily energy used, by the pump, in kilowatt-hours, by the - water s η = 70% Δh = 30 [m] energy =$0.10 [kWh-1] cost E=5,045 [kWh]
![= Find: Daily Pumping Cost [$] * η = 70% fresh water Δh energy daily](http://slideplayer.com/slide/15896735/88/images/21/%3D+Find%3A+Daily+Pumping+Cost+%5B%24%5D+%2A+%CE%B7+%3D+70%25+fresh+water+%CE%94h+energy+daily.jpg "used. * cost. cost. per day. fresh. L. Q=500. the daily energy used, by the pump, in kilowatt-hours, by the - water. s. η = 70% Δh = 30 [m] energy. =$0.10 [kWh-1] cost. E=5,045 [kWh]")
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= Find: Daily Pumping Cost [$] * η = 70% fresh water Δh energy daily
used * cost cost per day fresh L Q=500 cost of energy, in dollars per kilowatt-hour, and the daily pumping cost equals, --- water s η = 70% Δh = 30 [m] energy =$0.10 [kWh-1] cost E=5,045 [kWh]
![= Find: Daily Pumping Cost [$] * η = 70% fresh water Δh energy daily](http://slideplayer.com/slide/15896735/88/images/22/%3D+Find%3A+Daily+Pumping+Cost+%5B%24%5D+%2A+%CE%B7+%3D+70%25+fresh+water+%CE%94h+energy+daily.jpg "used. * cost. cost. per day. fresh. L. Q=500. cost of energy, in dollars per kilowatt-hour, and the daily pumping cost equals, --- water. s. η = 70% Δh = 30 [m] energy. =$0.10 [kWh-1] cost. E=5,045 [kWh]")
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= Find: Daily Pumping Cost [$] * η = 70% $505 fresh water Δh energy
used * cost cost per day fresh L Q=500 $505 dollars. [pause] water $505 s η = 70% Δh = 30 [m] energy =$0.10 [kWh-1] cost E=5,045 [kWh]
![= Find: Daily Pumping Cost [$] * η = 70% $505 fresh water Δh energy](http://slideplayer.com/slide/15896735/88/images/23/%3D+Find%3A+Daily+Pumping+Cost+%5B%24%5D+%2A+%CE%B7+%3D+70%25+%24505+fresh+water+%CE%94h+energy.jpg "used. * cost. cost. per day. fresh. L. Q=500. $505 dollars. [pause] water. $505. s. η = 70% Δh = 30 [m] energy. =$0.10 [kWh-1] cost. E=5,045 [kWh]")
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= Find: Daily Pumping Cost [$] * η = 70% $505 $50 $100 $250 $500 fresh
energy daily energy = pumping used * cost cost per day fresh L Q=500 Looking back at the possible solutions, --- water $505 s η = 70% Δh = 30 [m] energy =$0.10 [kWh-1] cost E=5,045 [kWh]
![= Find: Daily Pumping Cost [$] * η = 70% $505 $50 $100 $250 $500 fresh](http://slideplayer.com/slide/15896735/88/images/24/%3D+Find%3A+Daily+Pumping+Cost+%5B%24%5D+%2A+%CE%B7+%3D+70%25+%24505+%2450+%24100+%24250+%24500+fresh.jpg "energy. daily. energy. = pumping. used. * cost. cost. per day. fresh. L. Q=500. Looking back at the possible solutions, --- water. $505. s. η = 70% Δh = 30 [m] energy. =$0.10 [kWh-1] cost. E=5,045 [kWh]")
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= Find: Daily Pumping Cost [$] * η = 70% $505 AnswerD $50 $100 $250
$500 Δh energy daily energy = pumping used * cost cost per day fresh L Q=500 the answer is D. water $505 s η = 70% Δh = 30 [m] AnswerD energy =$0.10 [kWh-1] cost E=5,045 [kWh]
![= Find: Daily Pumping Cost [$] * η = 70% $505 AnswerD $50 $100 $250](http://slideplayer.com/slide/15896735/88/images/25/%3D+Find%3A+Daily+Pumping+Cost+%5B%24%5D+%2A+%CE%B7+%3D+70%25+%24505+Answer%EF%83%A0D+%2450+%24100+%24250.jpg "$500. Δh. energy. daily. energy. = pumping. used. * cost. cost. per day. fresh. L. Q=500. the answer is D. water. $505. s. η = 70% Δh = 30 [m] AnswerD. energy. =$0.10 [kWh-1] cost. E=5,045 [kWh]")
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? Index σ’v = Σ γ d γT=100 [lb/ft3] +γclay dclay 1
Find: σ’v at d = 30 feet (1+wc)*γw wc+(1/SG) σ’v = Σ γ d d Sand 10 ft γT=100 [lb/ft3] 100 [lb/ft3] 10 [ft] 20 ft Clay = γsand dsand +γclay dclay A W S V [ft3] W [lb] 40 ft text wc = 37% ? Δh 20 [ft] (5 [cm])2 * π/4
![Index σ’v = Σ γ d γT=100 [lb/ft3] +γclay dclay 1](http://slideplayer.com/slide/15896735/88/images/26/Index+%CF%83%E2%80%99v+%3D+%CE%A3+%CE%B3+d+%CE%B3T%3D100+%5Blb%2Fft3%5D+%2B%CE%B3clay+dclay+1.jpg "Find: σ’v at d = 30 feet. (1+wc)*γw. wc+(1/SG) σ’v = Σ γ d. d. Sand. 10 ft. γT=100 [lb/ft3] 100 [lb/ft3] 10 [ft] 20 ft. Clay. = γsand dsand. +γclay dclay. A. W. S. V [ft3] W [lb] 40 ft. text. wc = 37% Δh. 20 [ft] (5 [cm])2 * π/4.")
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