Water vapor is mainly used to produce electricity.
The first industrial revolution was caused by water vapor. There are two ways to produce electricity. The first is hydroelectricity, which uses running water as a source of energy. The other is thermal power generation, which uses coal to boil water to produce steam, and uses the steam to drive the rotor to spin to produce electricity. Steam can also be used to iron clothes, etc.
How to make the steam generator in “Oxoxia” and what is its use in the game?
1. Steam quality: whether the temperature and pressure are appropriate
2. If the steam contains impurities.
1) Regarding the influence of steam temperature: During boiler operation, the steam temperature will change due to changesfuel, operating conditions, etc.
If the steam temperature is too high: the turbine blades will experience creep at high temperatures.
2) If the temperature is low: steam consumption will increase.
3) If the temperature is lower, a water shock may occur in the turbine.
If the pressure is too high, the seals of the pipes and turbine cylinders will not be good. However, it is usually not too high, otherwise the boiler safety valve will move!
4) Regarding impurities such as calcium and magnesium contained in boiler steam, turbine blade scaling can occur.
This will affect the flow capacity of the flow part and, more seriously, it will affect the efficiency of the steam turbine.
Poor steam quality means low power generation efficiency!
An electrical engineerrician is necessary to build. The threshold is higher.
The electricity production capacity is 2 kW. Alright. Like oil generators, these are the two generators with the highest electricity production capacity per unit.
Overheating temperature 1000 degrees. In terms of material choice, just use the most common iron. For comparison, the thermal conductivity of steel is +200 degrees, and the best thermal conductivity is only +900 degrees.
The effect is to absorb water vapor, cool it and then release it.
First, a steam generator must use steam to produce electricity. It cannot be another gas.
Secondly, the working principle of the steam generator is that the high temperature steam is sucked in through the five suction ports below, and then discharged from the top after lowering it. The effectiveness of the psuction rate is 2 kg of steam per second per port. The discharge temperature is 425 Kelvin (approximately 151 degrees).
Finally, there are two prerequisites for the operation of a steam generator. First, the inlet temperature must be above 500 Kelvin (around 226 degrees). Secondly, the pressure of the suction port is more than 3 kg higher than the above.
Based on the specific heat capacity of steam, for every 2 kW of electricity produced, the minimum heat consumption is 5*2*75*4.179=3134 kDTU. The numbers seem quite unreal, let's compare them.
The calorific value of refined metal is 16 k/s and the calorific value of a coal-fired generator is 9 k/s. In other words, the heat generated by refining metal for 195 seconds, or by a coal generator for 348 seconds, can be consumed by the steam generator in 1 second.
Machine BUGne steam——Temperature cheating
The efficiency of the steam engine in absorbing heat is so high that if we use it correctly, the magma will cool very quickly. The solution is to lie to Wen.
The principle of temperature cheating is that when the steam engine detects the temperature of the suction port, it only determines the temperature and does not determine whether the suction port is steam. This allows us to place high temperature substances other than steam at the inlet of the steam engine, thereby bypassing the temperature determination. At the same time, the steam engine inhales only steam and not other temperature-altering substances.
You can use any substance to cheat the temperature, including solids, liquids and gases, as long as the temperature reaches the standard.
After discovering the thermal cheat,some experts have begun to study how to improve the effectiveness of thermal cheating.
After research, the captain discovered that the lower the mass of material in the deception wing, the lower the heat loss per unit time. An improved temperature-deceptive configuration was therefore developed.