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Difference between revisions of "v0.31:Water"

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(Added section -- delete/edit as appropriate. Lake flooding, it happened but I didn't experiment so I'm not exactly sure what was going on. Perhaps some did drain, but not all.)
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==Getting Rid of Unwanted Water==
 
==Getting Rid of Unwanted Water==
Water will flow off the edge of the map, endlessly, which is one way to get rid of large amounts of water (evaporation works better with small amounts). Underground, there are at least two ways to accomplish this. One is to channel your excess water into a dry cavern that is open to the map edge, as the water will flow out (depending on slopes and such). The other, probably easier method, is to mine to the map edge (since you cannot mine the map edge itself, just up to it), then smooth the edge and then carve {{L|fortification}}s into it. Water will flow through the fortifications and off the edge of the map. Make sure your exit flow is equal to or, for safety, greater than your input. One approach that may not work well is to dump your excess water into an underground lake that is open to the map edge, as such lakes have some sort of equilibrium built into them, and your excess water can cause the lake to flood.  
+
Water will flow off the edge of the map, endlessly, which is one way to get rid of large amounts of water (evaporation works better with small amounts). Underground, there are at least two ways to accomplish this. One is to channel your excess water into a dry cavern that is open to the map edge, as the water will flow out (depending on slopes and such). The other, probably easier method, is to mine to the map edge (since you cannot mine the map edge itself, just up to it), then smooth the edge and then carve {{L|fortification}}s into it. Water will flow through the fortifications and off the edge of the map. Make sure your exit flow is equal to or, for safety, greater than your input. One approach that may not work well is to dump your excess water into an underground lake that is open to the map edge, as such lakes have some sort of equilibrium built into them, and your excess water can cause the lake to flood.
  
 +
Draining lakes and oceans from underneath can be a finicky task, but there's a bit of dorfen magic for it:  build a retractable bridge on the level beneath the sea bottom.  Link this to a lever to control the flow as you desire.  Now evacuate the dorfs and wall off the area above the bridge.  Then, with the bridge in place, designate ramps around the bridge leading up - breaking through to the sea bottom.  Now how can the dorfs dig these squares out?  Yep, from beneath the bridge.  In this way they get the water flow started without ever getting their little feet wet.  This is a great way to set up channels one square in from the map edge near a water source, so that you can properly wall off the baddies from getting into the fort.
  
 
{{gamedata|{{raw|DF2010:hardcoded_materials.txt|MATERIAL|WATER}}}}
 
{{gamedata|{{raw|DF2010:hardcoded_materials.txt|MATERIAL|WATER}}}}
  
 
{{Category|Physics}}
 
{{Category|Physics}}

Revision as of 19:13, 17 August 2011

This article is about an older version of DF.

Water is a fluid found all over the world. It Template:L from mountain springs, forming the world's Template:Ls, Template:Ls, Template:Ls, and Template:Ls. Water falls as Template:L and Template:L, and freezes into Template:L. Water is home to a variety of Template:L. Many creatures can Template:L in deep water. Air-breathing creatures that are submerged in water can Template:L in it. Water comes in two varieties: freshwater, which makes up almost all inland water, and saltwater, which fills the seas. In this version, some brooks and murky pools can be saltwater even if the fortress site is partially mountainous. It is not known if this is a bug. To tell the difference, attempt to set up a drinking zone including some of the water in question. If there are zero tiles of water source available, the water is saltwater.

Mud is a Template:L which is created any time water covers an area. Any tiles that contain mud may be used for Template:L.

Water is displayed with the symbols and ~, sometimes colored different blues, and white, showing ripples. Water can also take on other colors indicating Template:L such as blood, ichor, or goo. (The game can be Template:L to show the depth instead).

Dark-colored water symbols indicate the water is one Template:L below the camera level. Water has 7 depth levels per tile, with 1 being a shallow puddle, and 7 filling the tile completely. Template:L can safely walk through water up to a depth of 4. Dwarves finding themselves in water at a depth of 5 or greater are at risk of drowning unless they are skilled at Template:L.

Interestingly, water can slow falls with deep enough water and short enough falls. If the water is deep enough relative to the height of the fall, dwarfs can be less injured or even completely uninjured (from a 4 level drop to a 3 level deep pool, for example)

Evaporation

Evaporation occurs when water or Template:L is at a depth of 1/7. Simply having 2/7 standing water is enough to prevent evaporation. Water or magma at 1/7 depth will even evaporate if it is on top of 7/7 depth water as shown in the example bellow.

1 1 1
7 7 7

Template:L are an exception. In hot or scorching environments a murky pool can evaporate even when it is completely full. Murky pools also generate water to simulate seasonal accumulation from rainfall. This sometimes makes it possible for a murky pool to replenish itself even when it has been completely drained.

Freezing/Thawing

Any outdoor environment can freeze seasonally. With the updates to weather and seasonal changes many environments get cold enough to freeze in winter. When this happens any water that is exposed above ground will freeze. However water a single tile away that is in an underground tunnel will not freeze. When ice thaws it always leaves a 7/7 water tile regardless of how much water may have been present when the ice formed.

When outdoor water freezes or thaws it does so instantly. Any dwarf Template:L in water when it freezes will die, and any dwarf standing on a frozen pond will fall into it when it thaws, most probably leading to Template:Ling.

Mining ice can produce chunks of ice. Taking these chunks into a stone layer will cause it eventually melt, turning it into a "water" item (much like those hauled in Template:Ls) which can't be used for anything. Bug:360

Template:L into a stone layer will cause it to instantly melt into water, which can be used to get water near the surface in a Template:L biome without having to use a Template:L stack to pump water up from a Template:L pool.

If you constructed a Template:L or a Template:L right over top of water and it freezes, the item will be deconstructed to its original parts, but some may fall into the water.

Flow

Water and Template:L are both Template:L which are constantly trying to Template:L into adjacent tiles until they have filled all available space or until they run out of fluid. Fluids technically move in 9 directions: down, and to the sides. Fluids cannot move diagonally up or down. Fluids at a depth of 1/7 no longer attempt to move unless they can move down. Fluids under Template:L can appear to travel upward until the pressure equalizes, though in reality they are moving downward and/or sideways relative to their source.

If the flow is strong enough, it can move objects such as dwarves, pets, stones, weapons or corpses.

Fluids in Dwarf Fortress act like a fairly thick, viscous material. This makes it possible to do highly implausible things like Template:L out a dry hole in the middle of a Template:L or Template:L.

Sourced Water

Water that comes from Template:Ls, Template:Ls, Template:Ls, Template:Ls or springs is considered to be sourced water. Any sourced water is an endless supply of water that can never run dry, although it can freeze for part of the year in colder biomes.

When using sourced water you should strongly consider installing Template:Ls and be aware of how Template:L works or you could easily end up Template:Ling your fortress and having a lot more Template:L than anticipated.

Salt Water

Dwarves can not use salt water until it has been desalinated; while healthy dwarves will usually prefer to drink Template:L, they may resort to drinking water if they are forced to drink the same variety for too long, and wounded dwarves can only be given water to drink.

To check to see if water is salty, use the (i) menu to see if the game shows the pond/pool as a water source. If the "water source (x)" is (0), then the source is salty. If not, then your dwarves will drink it.

A Template:L can be used to desalinate water, but the fresh water produced must be stored in a cistern made entirely out of constructed walls and floors. A smoothed floor does not count and is considered to be natural stone. If the water touches any natural stone or dirt it will instantly revert the entire reservoir back to salt water. Note that you will need a Template:L to access the cistern as a water source. Since the old 40d method of using a Template:L to desalinate water still works in 0.31, building a well over the nearest natural water source is also sufficient. When embarking in a salt water biome, it may be worthwhile to bring along a rope, a bucket, and two stone to ensure that you have the necessary equipment for building a well.

If your embark area contains multiple biomes, you may not have to build a cistern. If an aqueduct carries fresh water to a part of the map that is not a saltwater biome, you can simply keep the water in a hewn reservoir. Furthermore, subterranean lakes may also be non-salinated.

Stagnant water

Water taken from a murky pool or wetlands biome will be stagnant, just as water taken from near the ocean will be salty. Dwarves get an unhappy Template:L if they have to drink stagnant water, and a Template:L cleaning a Template:L with stagnant water will likely cause an Template:L.

Template:Ling stagnant water will make it clean and, unlike with desalination, a Template:L in a wetlands biome doesn't have to be made entirely of constructed material. Moving water only via flow or with gravity won't clean it; pumping is required.

Note that the game will only call water stagnant if it's in a Template:L; looking at standing or flowing water with k won't give any indication.

Water laced with mud

If a water source is only one z-level deep and its floor is covered by "a pile of mud" (like most Template:L), then any water taken from it will be "water laced with mud". Drinking water laced with mud will give your dwarfs an unhappy thought. It might also cause Template:L if used to clean a Template:L.

Unlike stagnant water, merely moving the water with flow or gravity will take care of the problem, since it only occurs if the water source tile contains "a pile of mud", and water coming into contact with a clean floor only creates "a dusting of mud".

Contaminants

Contaminants that get into water currently can do very strange things. A pool of blood that gets covered by water will be pushed out of the water as the water flows creating more pools of blood at the edge of the water. Overflowing a large reservoir that contains contaminants of blood will generate a large amount of blood very quickly. This behavior is thought to be a bug.

Getting Rid of Unwanted Water

Water will flow off the edge of the map, endlessly, which is one way to get rid of large amounts of water (evaporation works better with small amounts). Underground, there are at least two ways to accomplish this. One is to channel your excess water into a dry cavern that is open to the map edge, as the water will flow out (depending on slopes and such). The other, probably easier method, is to mine to the map edge (since you cannot mine the map edge itself, just up to it), then smooth the edge and then carve Template:Ls into it. Water will flow through the fortifications and off the edge of the map. Make sure your exit flow is equal to or, for safety, greater than your input. One approach that may not work well is to dump your excess water into an underground lake that is open to the map edge, as such lakes have some sort of equilibrium built into them, and your excess water can cause the lake to flood.

Draining lakes and oceans from underneath can be a finicky task, but there's a bit of dorfen magic for it: build a retractable bridge on the level beneath the sea bottom. Link this to a lever to control the flow as you desire. Now evacuate the dorfs and wall off the area above the bridge. Then, with the bridge in place, designate ramps around the bridge leading up - breaking through to the sea bottom. Now how can the dorfs dig these squares out? Yep, from beneath the bridge. In this way they get the water flow started without ever getting their little feet wet. This is a great way to set up channels one square in from the map edge near a water source, so that you can properly wall off the baddies from getting into the fort.