Galaxy Breaker Power Generation Facility Efficiency and Cost-Effectiveness Analysis

Introduction Analysis of efficiency and cost performance of Galaxy Breaker Power Generation Facility. Galaxy Breaker Power Generation Facility is a key building in the game. What are some useful power generation facilities? Let’s take a look at the Galaxy Breaker hair

Galaxy Breaker Power Generation Facility Efficiency and Cost-Effectiveness Analysis

The Galaxy Breaker power generation facility is a key building in the game. What are some useful power generation facilities? Let’s take a look at the efficiency and cost performance analysis of Galaxy Breaker’s power generation facilities

Wind power

Power generation all day long, stable 12 hours of electricity

Simply define power generation efficiency as: power generation The ratio to the floor area

Then level 1/2/3 wind power efficiency = 3/6/12

Solar energy

The sun rises at 8 o'clock in the game. Sunset at 20 o'clock, 12 hours of light duration, and a suitable number of batteries, then 1 solar energy is equivalent to a wind turbine with a power generation of 10

After calculation, the ratio of batteries to solar energy is 1:2.77, which can be rounded up to an integer. 4:11

Then the photovoltaic efficiency of level 1/2/3 = 1.83/3.66/7.33

So, wind power overwhelms solar energy. It’s totally fine to only build wind power. It’s a lot cute. Xinhui thinks that weather effects will increase wind power and decrease solar power, or that wind power will decrease and solar energy will increase. If you think it is necessary to build both, then you are totally wrong!

Assume normal wind power Weather accounts for 80% of the game days, then 50% wind weather accounts for the remaining 20%. Assuming the duration of 50% wind weather is 1 day, it is equivalent to 50% wind weather lasting for 1 day every 5 days. In this way, wind power It is equivalent to the solar energy of a 96-hour day and 24-hour night, except that the illumination at night is not 0% but 50%. In this way, just like upstairs solar energy, you only need to calculate the battery ratio to calculate the wind power efficiency affected by weather.

1 hour in the game = 30 seconds, battery storage 10k, equivalent load = 12*0.8+6*0.2=10.8

1 wind power needs to store electricity = (12 -10.8)*(30*96) =3.456k

So the ratio of battery to wind power is about 1:3

Then the corrected level 1/2/3 wind power efficiency = 2.025/ 4.050/8.100, it can be seen that wind power is more efficient than solar power even if solar power is not corrected for weather effects, so there is no need to build solar power.

In human terms:

1. Wind power overwhelms solar power, and there is no need to build solar power

If it is necessary to consider the severe weather environment, the wind power generation will no longer be regarded as 12, but as 10.8, and 1 wind power will be built for every 3 wind power generated Battery, which can ensure stable and uninterrupted power in bad weather when 50% of wind power is used every 5 days.

Geothermal energy

Geothermal holes are required to produce mud, which is converted into water. It is a very important water source and is almost a must-have

1/ Level 2/3 geothermal efficiency = 8/16/32

Plant Energy

Taking herbaceous plants as samples, then 1 cultivator + 2 harvesting stations 1/2/ Level 3 can produce approximately 1.6/3.3/5 plant biomass and requires water.resources, but the plant biomass produced can be left in other main bases to generate electricity, so if you can find a place with a lot of water or mud, it will be a good power base

Ignore the area occupied by the pipeline, and use 9 *9 area is used as an agricultural area, then the efficiency of plant energy at level 1/2/3 = 1.11/4.69/10.12

If plant energy is used to convert gas to power generation, the efficiency increases to level 1/2/3= 7.54/21.02/37.85

Gas

Use green swamps as resources to generate electricity. If plants are used as resources to generate electricity, see upstairs.

Assume that the area of ​​the pump and pipe is 20

Level 1/2/3 gas efficiency=8.90/16.44/37.50

Nuclear energy

Same as plant energy, as long as uranium resources are collected, it can be Each base with water resources directly generates electricity, which seems to be a non-renewable resource and is used for mid-term transition

Level 1/2/3 nuclear energy efficiency = 22.91/42.04/65.00

Magma Energy< /p>

Magma is required, and the liquid cannot be transported to other maps, so magma power generation can only be used for local power generation. It is a good choice to place a large number of high-power-consuming communication centers in the research area

Ignoring the pipe area, the energy efficiency of level 1/2/3 magma = 20/30/40

Thermonuclear energy

The cost is extremely expensive, and it is generally not used for main power generation, but for Making Plasma

I tested plant energy using the most basic herbal plants, so the data shows that plant energy efficiency and cost-effectiveness are very low. I haven’t collected or tested other samples yet. I look forward to seeing big results. Let me summarize the resource output of each plant sample

Add the issues of wind power and photovoltaic in desert areas

For desert maps without obvious climate change, such as the first desert survey map and Tantan In the Sanshi Desert map, the weather does not change much, basically maintaining at 200 light and 25 wind. It is obviously cost-effective to use solar energy. The appropriate ratio of batteries to solar panels is 3:4, and the power generation efficiency at level 1 technology is 2.85

For desert maps in sandstorm weather, such as the Giant Shield Beast survey map, there are usually 200 light and 25 wind power, but in sandstorm weather there is 250 wind power or 500 wind power. At this time, both solar and wind power batteries need to be built, and only a simple linear The ratio of the three can be calculated by planning the model. It is calculated that photovoltaic: wind power: number of batteries = 2:4:3, and the efficiency at level 1 is 3.33

The largest one is 5MW, in Denmark Yes, China has one. Generally, 2MW, 1.5MW, or smaller 0.8MW are used in China.

Electrical power calculation formula: P=W/t =UI.

In a purely resistive circuit, according to Ohm's law U=IR and substituted into P=UI, we can also get: P=I2R=(U2)/R.

In dynamics: Power calculation formula: P=W/t (average power);P=FV; P=Fvcosα (instantaneous power).

Extended information

When the wind turbine generates electricity, it must ensure that the output frequency is constant. This is very necessary for both wind turbine grid-connected power generation and wind-solar hybrid power generation. ?

To ensure that the frequency of wind power is constant, one way is to ensure a constant speed of the generator, that is, a constant speed and constant frequency operation mode. Because the generator is driven by the wind turbine through the transmission device, this This method undoubtedly requires constant speed of the wind turbine, which will affect the conversion efficiency of wind energy.

Another way is to change the generator speed with the wind speed and ensure the frequency of the output electric energy to be constant through other means, that is, variable speed constant frequency operation. The wind energy utilization coefficient of the wind turbine is related to the blade tip speed ratio (the ratio of the linear speed of the impeller tip to the wind speed). There is a certain blade tip speed ratio that makes Cp reach the maximum value.

Baidu Encyclopedia-Wind Turbine

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