Each pump is different, but you should get somewhere about 6000 gph
Can't say because this depends on the flow coming out of the shower head. If the flow is 1ltr per minute then in 10 minutes you will use 10 litres The average shower in the US flows at a rate of 7.9 liters per minute, or 2.1 gallons per minute. A ten minute shower would consume 79 liters or 21 gallons of water.
To convert feet of water head to bar, you can use the conversion factor where 1 foot of water is approximately equal to 0.02953 bar. Therefore, 10 feet of water head is about 0.2953 bar (10 feet × 0.02953 bar/foot).
First you need to take of the head and then dump it into a vat of water. Then just calculate the water displacement. This can be done by decapitating the subject.
The formula for head loss over a rectangular weir is given by: [ H = \frac{Q^2}{2g \cdot b^2 \cdot C_d^2} ] where ( H ) is the head loss (or the height of water above the weir), ( Q ) is the flow rate, ( g ) is the acceleration due to gravity, ( b ) is the width of the weir, and ( C_d ) is the discharge coefficient. This equation is derived from energy principles and considers the flow characteristics over the weir.
Water column head is expressed either as the height of the column ... 6 meters here ... or else as the pressure at the bottom ... 58.842 kPa here. 'Kg' can't be a unit of water column head, and the diameter of the column is irrelevant.
By gph I suppose you mean gallons per hour. Pumps are made with different discharge characteristics, you should have with the pump a graph showing the discharge head or pressure against flow rate. If you only have pressure quoted, 1 bar = 14.5 psi = 30 ft head of water (roughly), so 1 psi = 2 ft water head. If you don't have the characteristic graph you will have to go back to the makers for it
sorry don't
About 1.25 gallons per minute.
Static discharge head refers to the pressure at the pump discharge outlet, which is created by the pump's rotation and used to overcome the system's resistance to flow. It is a critical parameter in pump performance calculations and determines the pump's ability to push water through the system. Static discharge head is influenced by factors such as pump design, speed, and the system's piping configuration.
The flow rate (gallons per minute) will depend on the cross-sectional area of the pipe.
Obviously it partly depends on the shower head, but most will give about 2.5 gallons per minute, so you are using about 12 gallons of water, possibly about 8 - 9 of it hot.Place a 1 liter bottle below the shower and measure how many seconds it will require to fill it. Then:Number of gallons in five minutes = 78,1/ Number of secondsAn average shower head emits about 1.3 -1.5 gallons per minute, so that would be 7 -8 gallons.
4 gallons if head delivers 2 gallons/minute
Total pump head is the sum of suction and discharge pressure in mtr. ie. 1 bar =10.33 metres of water column
Head 30mts Discharge 120 cu.mt water pump
Suction head will decrease Delivery head will decrease. Discharge will increase at low suction and delivery head. discharge stagnate at low head than rated head.
diamond head
25-30 gallons.Depends on the head. Reg. heads about 2.5 per min. x 10 = 25 gal.