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Solution mining

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The method of solution mining is a very old technological process. ... sides of this cavern are more straightly as the caverns which is leached with ... – PowerPoint PPT presentation

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Title: Solution mining


1
Solution mining
  • Introduction
  • Technology of solution mining
  • Technology of the salt production
  • Geological conditions
  • Pros and cons

2
Solution mining - Introduction
  • The method of solution mining is a very old
    technological process. Natural brine sources
    were already used in antiquity.
  • Brine was produced by squirting water into mining
    chambers as well as by injection of water in the
    deposit through wells.
  • In the 50th and 60th new fields of the
    technology were developed. The present status of
    equipment of the well was developed.
  • The erected cavern by solution mining often used
    as underground storages for gas or oil.
  • Besides the exploitation of rock salt other
    minerals obtains a great importance (i.e.
    sylvinite, carnallite, bischofite, trona).
  • The control and measurement methods for steering
    the size and the form of the cavities were
    elaborated.

3
Technology of Solution Mining (1)
  • A bore hole was drilled from the surface of the
    earth to the bottom of the salt layer.
  • A casing was worked in the bore well and was
    cemented from the surface to the top side of the
    deposit. The cement must shut tight against the
    pressure of the blanket.
  • The surface of the bore hole in the area of the
    deposit is free. The salt can be dissolved.

4
Technology of Solution Mining (2)
  • The dissolution of the salt begins with the
    solution of a cavern sump. The sump shall be
    accommodate the insolubles of the deposit near
    the casings in the well.
  • During the solution of the sump only water is
    used .
  • The water current is directly, that means that
    the current of brine in the cavern has the same
    direction as in the production casing.
  • The solution of the sump can be ended if the
    diameter of the cavern is 5 10 m.

5
Technology of Solution Mining (3)
  • The next step is the undercut phase. The
    injected water is going trough the outer casing
    and the brine leave the cavern trough the inner
    casing. This current direction is named
    indirectly.
  • Important for the forming of the cavern is the
    precise controlling of the blanket level.

6
Technology of Solution Mining (4)
  • For winning of the salt in the deposit the level
    of the casings and the blanket was arranged
    higher. Because in the cavern the density of the
    brine increases from the top to the bottom, the
    brine current goes from the end of the outer
    casing under the blanket level to the side and
    then it flows to the inner casing and to the
    surface.

7
Technology of Solution Mining (5)
  • The last step is reached, if the cavern arrives
    the top of the deposit.

8
Technology of Solution Mining (6)
  • Last of all the tubes were removed and the bore
    hole will be cemented.

9
Technology of Solution Mining (7)
  • The equipment of the brine place is very simply.
    For the production of brine is needed
  • (1) a building for a control room and an office,
    (2) a workshop and a storage, (3) a building for
    pumps, (4) a blanket station, (5-7) tanks for
    water and brine

10
Technology of Solution Mining (8)
  • Another technology is used for the erection of
    underground storages. In this case the salt was
    dissolved after the undercut in only one step.
    The entry of the solvent into the cavern is
    trough the inner tube. From there the solvent
    rises up, dissolves the salt and goes to the
    outer casing.
  • The sides of this cavern are more straightly as
    the caverns which is leached with the
    step-by-step technology.
  • A disadvantage of this procedure is that the
    brine is in the most cases not saturated.

11
Technology of Solution Mining (9)
  • Methods to control the size of the caverns
  • 1. Measurement of radial distance between the
    well and the cavern surface with ultrasonic
    sondes (sonar).
  • 2. Measurement of the area by addition of
    blanket into the cavern and determination of
    height difference of the blanket level.
  • 3. Mass- and volume balance of solvent injection
    and brine recovery
  • This three methods used together allows an
    precise assessment of the cavern area and size.

12
Technology of the salt production (1)
  • The most important salt minerals, which produced
    by solution mining are
  • Rock salt (NaCl)
  • Sylvinite (NaCl KCl)
  • Carnallite (MgCl2 KCl 6H2O)
  • Because these minerals have very different
    thermodynamic properties, the production
    technology for each salt had to developed
    specifically.
  • How we have to see later for the winning of
    carnallite the development of a new solution
    mining technology was necessary.

13
Technology of the salt production (2) Rock salt
The most important property of NaCl is the
independence of the saturation concentration from
the temperature. Because of this the whole water
contains in the brine must be evaporated. For
example contains 1000 l saturated NaCl brine 317
kg KCl and 882 kg H2O. That means the production
of NaCl is a very energetic intensive process. In
locations with arid climate often used the
evaporation in solar ponds. Otherwise the
evaporation must take place in technical plants.
As energy base is used steam or electrical power.
14
Technology of the salt production (3) Rock salt
Flowsheet of NaCl production in a solar pond
process
Brine
Solar pond
Harvested crystalline crop
Crushing, screening
Water
Soiled brine
Washing
Oil or gas
Water
Drying
Storage
NaCl
15
Technology of the salt production (4) Rock salt
Flowsheet of NaCl production in a technical
process
Brine
Chemical purification, precipitation of Mg,
Ca,SO4--
Steam or electrical power
Water
Evaporation, crystallisation
Water
Oil or gas
Drying
Storage
NaCl
16
Technology of the salt production (5) Sylvinite
Sylvinite is a mixture of NaCl and KCl. In the
case of contact with water by solution mining
will be dissolved both components. At first in
relation of their concentration in the raw salt
and later the dissolution is appraoching to the
invariant point M (red line), as shown in the
following picture.
17
Technology of the salt production (6) Sylvinite
Flowsheet of NaCl KCl production in a technical
process
Brine
Chemical purification, precipitation of Mg,
Ca,SO4--
Steam or electrical power
Water
Evaporation, NaCl crystallisation
NaCl
Water
Soiled brine
Washing
Vaccum cooling, KCl crystallisation
Oil or gas
Water
Drying
Oil or gas
Drying
Storage
Storage
NaCl
KCl
18
Technology of the salt production (7) Carnallite
Carnallite is a double salt of MgCl2, KCl and six
crystall water (MgCl2 KCl 6 H2O). The
solubility of the system Mg K Cl H2O is
shown in the following diagram.
Carnallite crystallisation by vacuum cooling
Evaporation
Cold leaching
KCl loss by decomposition
Cold leaching
19
Technology of the salt production (8) Carnallite
How we can see the cold leaching has no
efficiency, because - the brine is not high
concentrated and many water must evaporated -
the losses of KCl by decomposition of carnallite
are very high Therefore the hot leaching
technology for solution mining of carnallite must
used. This procedure has not the named
disadvantages and has the following
advantages - The brine is high concentrated.
Carnallite can be crystallised by evaporation
of a few amount of water and cooling the
brine - The solvent is saturated on NaCl.
Therefore halite and also kieserite remain in
the cavern as residue. - In the cavern remains a
high concentrated brine, which not worries the
environment. Because the solvent has a high
temperature, the cavern has two wells as shown in
the following picture. In only one well would
exchange the heat between the concentric inner
and outher tube or casing.
20
Technology of the salt production (9) Carnallite
Solution mining of carnallitite with - two
wells - selective dissolution - hot leaching
21
Technology of the salt production (10) Carnallite
22
Geological conditions
The very best to use the solution mining
technology is - a great height of the
deposit - and a low depth But by using new
developed technologies the winning of mineral
salts in deposits with low height is possible.
This new technology is named solution mining with
tunnel caverns. In this case one bore hole was
drilled verticaly and the other was drilled at
first verticaly and then it follows in the
deposit the direction of the salt layer with a
deviation. This technologie is not usable if
the deposit has tectonical breakdown and other
disturbances or great changes in the
direction. The drilling of the bore holes can be
complicated and expensivly if the overburden
contains gas or water.
23
Pros and cons
  • Pros
  • In the most cases solution mining has a very
    high economic efficiency because
  • The investment costs are low. (We dont need a
    mine)
  • The drilling of the bore holes are running costs
  • The demand of manpower is low
  • Solution mining can also used by difficult
    hydrogeological conditions.
  • The first step of the potash mill (hot leaching)
    is in the underground. There are no costs for
    this equipment.
  • Residue and high concentrated brine stays in the
    cavern, therefore there environmental burdens
    are low.
  • Cons
  • If the geological and tectonical conditions are
    very difficult, the solution mining is not
    usable.
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