The CFM of the equipment are given, how to calculate Static Pressure for it.
A condensing turbine uses all the energy from the steam going from high pressure turbine to secondary turbine to condensing turbine then sends the condensate back for reheating. where a non condensing turbine just uses the high pressure aspect of the steam then returns the low pressure stream back to be reheated. Condensng turbines utilises the entire available drop from high pressure to the vacuum in the condenser; a back pressure turbine only utilises only the top part, whereas an exhaust steam turbine utilises only th bottom part of the pressure drop. Hope that helps.
Compressor surge only occur in centrifugal compressors. reciprocating compressor don't as they increase pressure by volume reduction, unlike centrifugal compressors where they increase pressure by converting kinetic energy to potential energy (pressure).
Double seated ball valves will hold pressure from either end whereas single seated will only hold pressure rating from one end.
There is a pressure difference in the building only if the system referred to is NOT a closed system. In a closed, pressurized pipe system the pressure is the same throughout. If open, assuming 3 stories x 10 feet/story, one would add the pressure equivalent to 30 feet of water head.
Columns should be installed in vertical direction only on the other hand pressure vessels can be installed in both vertical and horizontal direction and having certain height limitations for vertical installation.
dust, water, shock, pressure, static, try to touch only the edges.
It is not possible to calculate the area given only the volume.
You can't. You need to know content.
The cylinder is given a static charge which attracts the toner particles - they only stick to the areas with static charge.
Not enough information. You can't calculate the age, based only on the distance.
The only information you need is the 25 feet height of the water column. The tank and pipe size and shape don't matter. The pressure per foot of water 'head' (height) is 2.31 psi per foot. 25/2.31 = 10.83 psi (pounds per square inch), which is the available pressure at the outlet. This is true if the water is not running out of the tank. So the 10.83 psi is called the "static" pressure. "Static" means "not moving". If the water IS moving, then the calculations become very complicated to determine working (or dynamic) pressure. There is not enough information given about the outlet pipe materials and fittings, and flow rate, to calculate the working pressure of this setup.
Always.
If you're only given the base, then you can't calculate the other leg. If you have any one of the following, then you can calculate all of the parts of the triangle: -- length of the other leg -- length of the hypotenuse -- size of either acute angle
a static discharge lasts for only a fraction of a second
You can't do that calculation given only that data. It depends more on the design of the LED than its drive levels.
density=mass/volume volume=mass/density
You cannot. Given only the slopes, it is impossible to determine the distance between the parallel lines and so the lengths of the sides. Without that you cannot calculate the perimeter.