A more efficient way of generating power compared to diesel generators is a coal power plant. Coal burned in boilers turns water into steam (1). This steam then spins turbines (2) and transfers mechanical force over a shaft into attached power generators (3) which make electricity from it.
Once manually enabled for a steam turbine, it prevents it from wasting steam by automatically shutting it off in case there is a large excess of mechanical power on the shaft. Once the power on the shaft gets low, the turbine gets restarted. However restarts are not instant so shaft should be accompanied with a mechanical power storage to achieve stable supply of energy.
A more efficient way of generating power compared to diesel generators is a coal power plant. Coal burned in boilers turns water into steam (1). This steam then spins turbines (2) and transfers mechanical force over a shaft into attached power generators (3) which make electricity from it.
Running out of power is no fun and there are several ways to avoid that. The first step is to set up alerts for storages that feed power-making machines, for example, coal and water storage that feed boilers used to produce steam for generators. This way, you know that coal or water are getting low before the power supply halts entirely.
In order to get more maintenance, you should prioritize researching and building a {0}. Once operational, you will need to supply it with products and it will start maintaining all your machines and vehicles.
Global supply of <b>diesel is critically low</b>! You are at high risk of running out of diesel. When all your diesel supplies are depleted, all vehicles and diesel generators will stop working. Without working logistics and electricity generation your economy will halt.
This tool enables pausing and unpausing individual entities such as machines or vehicles. It also supports mass pausing / unpausing by dragging over an area.
World Structures have a configuration window when selected on the {0} (1). You can select the {1} (2) that determines the rate of production but it also affects how many workers are required to work there and the {2} cost associated with it (3). You can increase the maximum {1} by upgrading the structure (4). In emergencies, you can load cargo to your ship when it’s present (5).
Many components of the ship can be added or upgraded. Upgrades are performed in the {0}. The {0} prepares any required components regardless of whether the ship is present or not. Once upgrades are prepared, they get automatically applied when the ship arrives.
It is recommended to set up storage alerts for products like {0} or products that are critical for maintenance or settlement services. Getting notified early on gives you time to react. You can also set up dedicated storages, fill them with emergency supplies and disable truck export. This way, you have emergency supplies whenever you need them.
You can also <b>set up alerts</b> to be notified if the storage becomes either too full or too empty which would prevent connected machines from performing correctly. This is ideal for alerting you if a critical material providing storage, such as coal to a power plant, is running low.
Running out of power is no fun and there are several ways to avoid that. The first step is to set up alerts for storages that feed power-making machines, for example, coal and water storage that feed boilers used to produce steam for generators. This way, you know that coal or water are getting low before the power supply halts entirely.
A storage unit will not actively request products from trucks by default. To change this, drag the green slider marked as <b>{0}</b> to the right. This makes the storage request products until it gets filled up to the green slider.
メクハイブ
軸流発回転式原動機と発電機は、どのような順番で並べても、1つの軸上にあれば連動して動きます。