Prepare for the ultimate challenge on You Shall Not Pass, an experimental map designed to push your skills to the limit! The starting point is a tiny valley with limited space, yet it is abundant in resources. Your task? Ascend to the top plateau before you run out of space (and coal). Once at the top, you are rewarded with a flat area for building a vast factory so you can utilize all the resources available to you. Will your excavators win the race against time or will your factory spiral out of control as your resources sputter out? Only the captains with the most robust plans (and trousers) can conquer this island of pain. This map is for experts only.
Utilizes a large set of centrifuges to concentrate uranium-235 isotope out of natural uranium (a process called isotope separation). The resulting product is fissile uranium, ready to undergo a chain reaction in a nuclear reactor.
Thermal storage uses steam to heat its tank of molten salt to store thermal energy. The accumulated energy can be then used to boil incoming water back to steam. The conversion process has losses but maintaining the accumulated heat does not decay while the storage is operational.
When enabled, power generated here can also be used by consumers that are set to consume surplus power only. Surplus mode is useful for generators for which any unused power goes to waste (e.g. solar panels) and can be instead provided to surplus consumers. Surplus generators always have a priority over non-surplus ones to generate power.
A complex facility which reprocesses radioactive material by isolating fission products (material that is no longer fissile and would slow down reaction if left in a reactor). Isolated waste decays faster, allowing it to be disposed of in a reasonable time span. The isolated waste is vitrified using molten glass into a solid form for easier storage.
Advanced thermal reactor that provides increased throughput. This reactor is also able to utilize MOX fuel. It can also regulate its power level automatically (if computing is provided). This plant can be set up to effectively provide up to {0} MW of electricity when running on full power.
Determines whether belts & storages will consume power and how. If power is set to '{0}', belts & storages will NOT work when low on power. If set to '{1}', power is consumed with the highest priority but belts & storages will still work despite having no power. Finally, power consumption for belts & storages can be disabled entirely.
Enables assignment of tree planters and tree harvesters to designated forestry areas. Only designated forestry areas within the influence of the tower can be used.
Fast breeder reactor is a nuclear reactor in which the fission chain reaction is sustained by fast neutrons. This process needs highly enriched fuel and produces large amounts of heat. The core containing enriched fuel is surrounded by a blanket of fissionable material which is bombarded by the fast neutrons and transformed into fissile fuel. This process also allows to burn transuranic isotopes which would normally take thousands of years to decay. This reactor does not use solid fuel rods, instead, its fuel is dissolved in molten salt. It runs under higher operating temperatures to produce super pressurized steam (800 °C). If the core is overheated and no emergency cooling is available, the reactor will automatically shut off by draining its molten fuel out of the reactor, all fuel will be lost, and the reactor will be damaged. This plant can be set up to effectively provide up to {0} MW of electricity when running on full power.
Presses loose items into compact units for easier transportation. A shredder can be used to restore compacted products back to their uncompacted state.
Utilizes a large set of centrifuges to concentrate uranium-235 isotope out of natural uranium (a process called isotope separation). The resulting product is fissile uranium, ready to undergo a chain reaction in a nuclear reactor.
You can also place trees manually to have them planted exactly where you want. The available types of trees can be found in the build menu. Manually placed trees are planted by the {0} as well.
A {0} is required to designate tree replanting zones. It has an area which is the working space where the assigned vehicles will operate. It can be changed similarly as in {2}. To plant & harvest trees, you need to place forestry designations inside the area by clicking on {1}.
Allows to select at which percentage of size the trees should be cut. That affects yield of wood and consumption of saplings. The table below shows quantity of wood produced per a single tree.
When enabled, power generated here can also be used by consumers that are set to consume surplus power only. Surplus mode is useful for generators for which any unused power goes to waste (e.g. solar panels) and can be instead provided to surplus consumers. Surplus generators always have a priority over non-surplus ones to generate power.
Determines whether belts & storages will consume power and how. If power is set to '{0}', belts & storages will NOT work when low on power. If set to '{1}', power is consumed with the highest priority but belts & storages will still work despite having no power. Finally, power consumption for belts & storages can be disabled entirely.
Enables assignment of tree planters and tree harvesters to designated forestry areas. Only designated forestry areas within the influence of the tower can be used.
Fast breeder reactor is a nuclear reactor in which the fission chain reaction is sustained by fast neutrons. This process needs highly enriched fuel and produces large amounts of heat. The core containing enriched fuel is surrounded by a blanket of fissionable material which is bombarded by the fast neutrons and transformed into fissile fuel. This process also allows to burn transuranic isotopes which would normally take thousands of years to decay. This reactor does not use solid fuel rods, instead, its fuel is dissolved in molten salt. It runs under higher operating temperatures to produce super pressurized steam (800 °C). If the core is overheated and no emergency cooling is available, the reactor will automatically shut off by draining its molten fuel out of the reactor, all fuel will be lost, and the reactor will be damaged. This plant can be set up to effectively provide up to {0} MW of electricity when running on full power.
メクハイブ
Will your excavators win the race against time or will your factory spiral out of control as your resources sputter out? Only the captains with the most robust plans (and trousers) can conquer this island of pain.
This map is for experts only.
できるよう出来る様になります。このマップは上級者向けです。