DE202009016240U1 - Water recovery system technology - Google Patents

Abstract

Catalytic water extraction system technology, characterized in that they processed according to the creatively natural, energieunaufwendigeren, sunlight-independent, non-thermal water production and supply principle sea water by means of sand, gravity, flow and time so that water of different qualities from service water to agricultural water to drinking water can be produced, transported on demand and used on site.

Description

A) Status Quo:

water belongs to the standard of living of all nations worldwide. The Special about water is that no living thing and virtually no Plant without water, especially without clean (chemical and material) Water gets along.

water is used as a drink directly or with additional Substances added or consumed, used in other foods, for irrigation in agriculture and / or landscape management and / or landscaping or as so-called service water various qualities used in industry and crafts. However, it is special that the special appearance of the seawater in the above uses as good as not is used or can not be used easily.

B) Problem description:

water is a much sought after commodity, and it is a so-called free good.

by virtue of strongly increasing demand and population worldwide the water management and environmental and consumer protection world already agree that water and especially drinking water already in the medium future a scarce good will be or already is too scarce in certain regions today.

you Agrees that these facts are increasing Pose a problem: both in terms of fundamental human rights on enough drinking water as well as with regard to sufficient Irrigation of agricultural land (which tends to be not low in general freedom and / or independence and / or peace-endangering potential); and certainly also with regard to the unenforceable right to sufficient Drinking water for all other living things on the planet Earth, where we all want to live and live ....

The problem number one is thus:
Water will soon be very scarce - with regard to drinkable water, perhaps even too scarce for all living things on earth.

In a very different area, water will also play an important role in the medium to near future:
namely in the field of energy; in both small, medium and large demand - in the area of mobility as well as in the field of building services. Because water is composed of oxygen and hydrogen. And in turn, hydrogen has long been recognized by experts as the energy source of the 21st century. And since the hydrogen production of water automatically means that this would lead to a further shortage of water, a process that would accelerate the water shortage again, currently favoring the production of hydrogen from fossil fuels such as petroleum. Coal and natural gas. However, the latter are also scarce and, moreover, pose significant environmental risks in a number of ways, such as recovery, transport and storage.

Problem number two is:
Although hydrogen is clearly favored for use in the area of energy-mobility-heat, it is necessary to resort to the already scarce resources of oil, coal and natural gas for hydrogen production due to water shortages, although this has clear environmental disadvantages.

And problem number three is,
that the very abundant amounts of seawater can only help a little, because the processes for the desalination of seawater are again very energy-intensive and therefore expensive.

Specific task:

Searched becomes or became in the summer of 2008 a comprehensive solution concept for irrigation, replanting, agricultural water storage and supply, drinking water supply and supply, both stationary, flexible and / or mobile as well as combined Stationary and mobile coming to use the given, extremely acute water emergency on the Canary island La Gomera possible soon, d. H. starting around November 2008 with a simple as possible Water extraction system technology helps to avert and as completely as possible operated with regenerative energies.

Solution:

"Agua marina" according to the invention is a one-, two-, three-, multi-stage system technology for obtaining water as well as for optimizing the water quality, both with regard to the pathogenic side effects of seawater in particular and to a more optimal use of water in general:
It is known that there are about 80 patent pending inventions concerning sand filters for water filtration. From the previously announced sand filter inventions it is clear that sand should only be used as filter material, but not that sand is recognized as the catalyst medium and should be used. Furthermore, it is recognizable that sand whether its low-cost procurement and its filter suitability should be used because sand is popular, traditional and proven in the history of water filtration.

On the other hand is the wording of the invention texts after using seepage effects and sand filtering does not explain that cognitive and epistemologically intentionally on the more energy-efficient, non-thermal freshwater recovery cycle of Creation or the nature of sea water resorted to has been!

Furthermore, it is also known that there are quite a few patents pending inventions for drinking water from seawater and seawater desalination. From the patent-pending inventions (a selection): DE 10 2004 051 695 A1 from 27.04.2006, Title: "Process for the production of industrial and drinking water from salty waters" and DE 195 30 086 A1 ; DE 100 01 911 A1 ; WO 98/03252 ; DE 198 05 317 A1 ; DE 101 06 242 A1 ; DE 101 127 19 A1 ; DE 102 08 655 ; DE 69929697T2 ; US 3,551,331 ; US 5,028,337 ; US 3,556,305 ; US 3,567,810 ; US 3,615,024 ; US 4,029,582 ; US 4,188,354 ; GB 2,000,720 ; US 5,762,797 ; US 5,169,712 ; US 3,417,870 ; US 5,006,267 ; DE 69929697T2 ; DE 10 2005 040 855 A1 ; DE 10 2004 051 695 A1 ; DE 10 2005 052 977 A1 ; DE 10297321 T5 ; DE 20 2004 017 383 U1 ; DE 20 2004 015 611 U1 ; EP 1702661 ; DE 20 2007 009 615 U1 ; DE 20 2006 011 195 U1 ; DE 10357541 B4 ; DE 20 2007 008 418 U1 ; DE 10 2004 036 717 A1 ; EP 1798298 ; DE 10 2005 017 858 A1 ; DE 10 2006 002 314 B3 ; DE 69928139 T2 ; DE 10225834 A1 ; DE 10 2004 016 891 A1 ; DE 10100666 A1 ; DE 60214228 T2 ; DE 10100665 A1 ; DE 10 2005 025 428 A1 ; DE 69526597 T2 ; DE 10 2005 025 428 B4 ; DE 69505052 T2 ; DE 10352636 A1 ; DE 10 2005 003 754 A1 ; DE 202007002877 U1 ; DE 10100676 A1 ; DE 19823350 B4 ; DE 10 2006 024 093 A1 ; DE 1035263684 ; DE 102004050145 A1 ; DE 10 2005 048 163 A1 ; DE 60 2005 001 050 T2 ; DE 10331297A1 ; DE 20 2005 015 745 U1 ; DE 10 2004 025 189 A1 ; EP 1328429 ; DE 10 2005 004 063 A1 ; DE 60001759 T2
Clear orientation towards energy-intensive electromagnetic, osmotic, reverse osmotic membrane technologies, further direction of energy-intensive electrical and / or chemical and / or biological-chemical seawater filtering emerges. These approaches to drinking water from sea water are all no problem, as long as energy is "out of the socket" without further ado and may not even be regenerative or needs to be recovered ....

From the two sand filter approaches (US ... from 1989, NO 20004130 from 2000 / EP01301686 from 2005), but not from the water extraction industry, but from the water disposal technology in the field of oil and gas production, it is known that sand filter for the removal of sand, sand-like materials, sludges and soils should be used. Although these approaches to keeping the output water free from the filter sand and the filtered-out, disturbing mantle materials could also be derived as an application for the "agua marina" water collection system technology. However, the "agua marina" concept is not about keeping away from non-liquid materials and / or materials that only disturb, as it were, but the use of naturally original cycle processes in an innovative water extraction technology.

The "agua marina" approach according to the invention is significantly different here:
The creation as a model - the "agua marina" system technology uses the less energy-consuming fresh water extraction principle that God has made available to us creatively on earth. Based on the assumption that the creation is the optimal quality, ie the best for all creatures, we find two alternative systems for the extraction of freshwater from seawater: a) the cold, less energy consuming, gravitational force dependent water cycle with locally concentrated sources and / or waters; and b) the energy-thermal cycle by means of evaporation and condi- tioning with flexible cloud logistics and regional or local rainfall for diffuse surface irrigation.

On these perfect, originally causal freshwater recovery cycles To date, patent-pending inventions are almost exclusively related on the energy-thermal principle. On the more energy-efficient Cycle system, however, rather no. The former causal Wassergewinnungssytem also has the advantage over the thermal system that it works independently of thermal conditions, and only by the mechanical gravitational force of the planet and the hydraulic mass pressure of the oceans.

However, the "agua marina" water collection system technology applies exactly this ingenious, perfect model and, according to the invention, applies the less energy-consuming process in terms of application technology in various new systems for obtaining water or producing freshwater from seawater: with the "agua marina" water well ( 1 - 3 ), with the »agua marina« silo fountain ( 5 - 7 ), with the »agua marina« water-in-water systems (WiW-Brunnen ( 4 ), Seehobelkette ( 11 - 15 ; 16 . 17 . 20 u. 21 ), Water breeches ( 18 - 21 ), Water litter ( 22 - 26 )), with mobile system solutions ( 35 - 38 ), stationary system solutions ( 1 - 3 . 8th . 9 . 27 - 30 . 41 . 42 . 47 u. 48 ), with combined mobile, stationary system variants by water, by land and by air ( 10 . 16 . 17 . 35 - 38 ) as well as with municipal architectural system solutions such as the Mauerbrunnen ( 27 ), the Wallbrunnen ( 28 ) and the lake or pond well ( 29 . 30 ), as well as the infrastructural alternatives of the tube wells ( 47 - 49 ) and last but not least with the one-man survival well ( 51 ), which, as I said, does without solar energy.

Time is Energy - Another »agua marina« technology approach results from the realization that everything takes its time, if achieving optimum quality, and optimally little Energy should be used for the respective process.

[In the freshwater extraction industry from seawater time is not money but energy.]

The usual Serve large-scale plants for seawater desalination Clearly majority osmotic and / or electrode method and / or biological chemical process. These are partly energy-consuming, sometimes extremely energy-consuming. In addition, on this Species freshwater often aromatic, mineral and ionic aftertreatment, because the just mentioned large-scale process the water quality partly not insignificantly reduce.

The »agua marina «system technology deliberately avoids on these energy-intensive and process-accelerating measures, because of such measures on the water extraction process Stress, are more expensive and not optimal product quality lead the recovered fresh water. Of the inventive »agua marina« approach So is a water or freshwater production for the best possible water quality as energy and financially as possible optimal conditions, in particular, does not assume that On-site unlimited power via mains available stands.

The means that in terms of energy or strength, which is also at the "agua marina" technology is needed, the "agua marina" conception is a seawater system inherent Provides energy and / or power generation, the possible Environmentally friendly - in this case water-friendly - works. This means that non-electric energy and / or power transmission techniques are used but mechanical and / or hydraulic solutions.

For this reason, the modular »turbolino concept« emerged ( 39 - 45 u. 46 ), which completes systemically the catalytic water extraction system technology according to the invention. It extracts the necessary systemic energy requirements exclusively from the flow energy of seawater and converts these turbolino-systemically into kinetic-mechanical energy, so that in particular the »agua marina system pumps and other» agua marina system modules are energetically supplied and serve can.

C) invention:

Task:

Searched becomes or became in the summer of 2008 a comprehensive solution concept for irrigation, replanting, agricultural water storage and supply, drinking water supply and supply, both stationary, flexible and / or mobile as well as combined Stationary and mobile coming to use the given, extremely acute water emergency on the Canary island La Gomera possible soon, that is from about November 2008 with a possible helps to avert simple water extraction system technology and as completely as possible with regenerative Energies operates.

Solution:

• a) Die erfindungsgemäße katalytische „agua marina”-Wassergewinnungs-Systemtechnologie gemäß der im Anspruchsteil beschriebenen Art entsalzt Meerwasser ohne speziellen Energieeinsatz für den Entsalzungsprozess.
• b) Dadurch entlastet die „agua marina”-Systemtechnologie die Resource Wasser mit Hinblick auf die Gewinnung von Energie im Allgemeinen und aus Wasserstoff als Energieträger im Speziellen.
• c) Ebenfalls eröffnet die „agua marina”-Systemtechnologie die Option, die Resourcen Erdöl, Kohle und Erdgas zur Gewinnung von Wasserstoff zu entlasten (, weil für die Wasserstoffgewinnung Süßwasser besser geeignet ist als salziges Meerwasser).
• d) Besonders interessant dufte die »agua marina-Systemtechnologie für Fischer sein, die wegen der allgemeinen Überfischung der Meere immer weniger am Fischfang verdienen und zudem wenig Alternativoptionen für ihre Arbeit auf dem Meer mit ihren Kuttern haben. Mit der »agua marina«-Systemtechnologie können sie künftig sozugsagen nach Wasser fischen und damit einen großartigen Dienst mit einem attraktiven Produkt unternehmen. Hierfür sind die »agua marina«-Wassereggen, die »agua marina«-Schöpfkette (Wasserhobelkette) aber auch die »agua marina«-Wasserreusen bestens geeignet.
• e) Ebenfalls besonders interessant erscheint die »agua marina«-Systemtechnologievariante für Luftkissenfahrzeuge, Land- und/oder Luftfahrzeuge, wonach die notwendige Transportzeit als ebenfalls notwendige Sickerzeit genutzt werden kann. Vorteil dieser Variante ist, dass Wassernotbedarfe auch dort relativ schnell abgestellt werden können, wohin es wegen mangelnder oder nicht existenter Wege- und/oder Wasserleitungsinfrastruktur sonst zu humanitären Katastrophen käme.

According to the invention, "agua marina" is a one-, two-, three- and / or multi-stage system technology for obtaining water and optimizing the quality of water, both with regard to the pathogenic side effects of seawater in particular and with regard to a more optimal use of water in general:

• a) The catalytic "agua marina" -Wassergewinnungs system technology according to the invention described in the part of the claim desalted seawater without special energy use for the desalination process.
• b) As a result, the "agua marina" system technology relieves the resource water with regard to the production of energy in general and hydrogen as a source of energy in particular.
• c) The "agua marina" system technology also offers the option of relieving the resources of oil, coal and natural gas for the production of hydrogen (because freshwater is more suitable for producing hydrogen than salty seawater).
• d) Particularly interesting is the "agua marina system technology for fishermen, who earn due to the general overfishing of the sea less and less fishing and also have little alternative options for their work at sea with their cutters. With the »agua ma In future, rina «system technology will enable them to fish for water and thus do a great service with an attractive product. For this purpose, the »agua marina« water rain, the »agua marina« chain (water planer chain) as well as the »agua marina« water pots are best suited.
• e) Also particularly interesting is the "agua marina" system technology variant for air cushion vehicles, land vehicles and / or aircraft, according to which the necessary transport time can also be used as likewise necessary seepage time. The advantage of this variant is that water emergency supplies can also be disposed of relatively quickly there, where humanitarian catastrophes would otherwise occur due to a lacking or non-existing infrastructure and / or water pipeline infrastructure.

The inventive "agua marina" system technology is thus a problem solving in the problem description identified problems for consumers of drinking water and / or Industrial water as well as in terms of the task, which is on the Canary Island of La Gomera is so dramatic (e).

"agua marina «are u. a. according to the invention, filtering Catalyst systems preferably used in the one-step system be used, but also two, three and / or multi-stage can come. There are both additive, modular catalyst system combinations possible as well as integrated, compact solutions.

It is conceivable that water extraction systems according to the invention, inter alia, preferably in cylindrical form, for example as a modular and / or integrated hose and / or pipe system ( 1 ) or as a container solution ( 3 . 5 ) are used on land, water and / or in the air.

D. Description »Water Recovery System Technology«

Hints:

• a) Taste is the taste below of filtered, catalyzed water.
• b) In the following, output water will be the filtered, catalyzed Water (eg drinking or service water) referred.
• c) In the following, the unfiltered water to be catalyzed with input water Water (eg seawater) called.
• d) Sand will become more natural in the following Material of all kinds crushed into sand mold - independent from the degree of / possible compression (eg to stone pressed), which is preferably non-pathogenic is.
• e) In the following, gravel becomes more natural as well as too Gravel shaped crushed material of all kinds, which preferably is not pathogenic.

1

cover

1a

Deckelumbördelung

1b

Flap fixation (eg clamping lip)

1c

Cover holes / lid recess (for water entry)

2

scree

3

input water

4

withdrawal line for output water

5

Catalyst- and filter material / surrounding filter material (sand, beach gravel, etc.)

5a

beach surface

6

leachate

7

Output water / utility water "x" (trapped / scooped Water)

7a

pumped off / abgezapftes output water

8th

air

9

Seabed

10

seawater

11

Country / Coast / rock

12a

tubular module

12b

tube-like module

13a

tube module

13b

tube module

14

rotor

15

rotor shaft to the gearbox

16

rotor gearbox

17

kinetic Power transmission device (eg shaft) (eg to the next Clutch and / or. Pump and / or. to the next gearbox)

18

Power transmission joint (e) (eg cardan joint)

19

Ring gear / rack

20

Input water tank / water tank Input

20b

Input water tank 2nd filtration stage

20c

Input water tank 3rd filtration stage

21

Sickerschutz-fleece / membrane

22

water inlet (Input)

23

Weight module (s)

24

air chamber

25

Exzenterhebelverschluss device

26

Load change compensation transmission (eg differential)

27

Helical gear units / bevel gear

28

Stabilizers / stabilizer weights / stabilizer (s) / control fins (fluid-u./o. aerodynamically favorable)

29

Water line infrastructure local (on site / on site)

30

Input water module / unit

31

Input water pipe (Hose, pipe)

32

protective cage

33

Input water interface (Tank / module), preferably with bayonet lock

34

Valve device / distributor device (s) (eg. Eg flap (s), bulkhead (s)

35

Soft / distributor for input water pipe / input water distributor

36

Input water inlet / -Durchlass (eg holes, holes, recesses, channels u. ä.)

37

Input water nozzle / intake module (preferably with bayonet lock)

38

Input Water Pump

39

/ Force flow direction

40

Sick establishment / gravitation

40a

Gravitational pressure / mass printing (ie: the lower the better)

41

Output water line interface (preferably bayonet lock)

42

Output water line interface Water Surface / Sea

43

Output waterline interface Beach / Shore / Harbor / Wharf / Watercraft / Vehicles all kinds

44

O interface for output water extraction line

45

Tapping device / Output water removal device

46

Output water membrane / Output water passage (eg holes, holes, recesses, channels u. ä.)

47

Outwasserleitungs interface Vehicle (truck, helicopter, ship, hovercraft)

48

recess in side wall and / or hull

49

casing

50

Catalyst- and filter module / catalysis and filter section

50a

Catalyst bag material / filter bag material (Fleece, membrane)

50b

Placement device / bulge for 50

51

hitch to catch up

52

Guide wheel / guide roller

53

Rotation stop device (Releasably)

54

guide for Wasserreuse u./o. Water traps modules

55

silo

56

Input water area

57

filtration area

58

Output water area

59

poetry

60

Synchronization transmission (eg differential)

61

Pump)

61a

beam pump

62

Coupling (s)

62a

Coupling (s) optional

63

Power transmission media (eg shaft, chain, rope, hydraulic fluid)

64

bolt

65

dowel

66

Flange / mounting plate / base plate

67

Two pivot rod

68

transmission

69

Speed differential

70

Output Water Tank

70a

Gutwasserbehälter-beading

70b

Output water container terminal receiving for lid-clamping lip

70c

Output water tank 1st filtration stage

70d

Output water tank 2nd filtration stage

71

Output Water Pump

72

Output water distribution

73

Output water Sickermembran

74

rotor blades

75

generator

76

kinetic Power coupling "flow rotor input water pump"

77

riser

78

Stabilizer construction (eg against tilting and / or swaying)

79

Stabilizer weight (e)

80

Output water tank (Truck / station / temporary storage)

81

Beading for deposits

82

Outlet / Exit for sea creatures, algae and / or suspended particles

83

Assembly »Protector«

84

Assembly »filter shoe« (including filter module ( 50 ))

85

Signal device (s) (Acoustic / visual / communicatively-telecommunicatively / satellitentechn.)

86

Float / pontoon module (s)

87

Buoy (s) / float

88

vent (eg valve-controlled outlet)

89

Buoyancy module (s)

90

Structures / auxiliary constructions / support structure / Silogestell

91

Crane, optionally rotatable

92

Cable (s)

93

Hook / hook (from crane, for example)

94

Eyelet / shackle ("Agua marina" system (s) carrier)

95

"agua marina «system (s) carrier /» agua marina «system (s) carrier construction

96

"agua marina "system (s)-suspension

97

support with foot

98

Spacer construction

99

Foundation (e)

100a

Clip-in device for spacers »horizontal«

100b

Clip-in device for spacers »vertical«

101

Beach wells / beach Well-module

101

Offshore wells / offshore wells module

102

Silobrunnen / Silobrunnen module

102

Tube wells / tube wells module

103

Water-in-water dry well / water-in-water dry well module (Offshore)

104

Water planer / planer water module

105

Water plow chain / water planing strand

105a

mobile Water planer chain / mobile Wasserhobelstrang

106

Wasseregge / water harrows module

107

Water Reuse / water traps module

107a

water Reuse mobile / water trap module mobile

108

Wall fountain / wall fountain module

109

Wall fountain / wall fountain module

110

Pond Fountain / Pond Fountain module

111

truck (Lorry) / semi-trailer vehicle

112

helicopter

113

aircraft

114

Hovercraft

115

water craft

116

turbolino / turbolino module (s) (OktoPROPP- / DuoPROPP- / QuatroPROPP- / Vario Propp module (e))

117

windi / windi module

117a

additional Windmill / windmill optional

118

Soft water / water course module

119

Water Station / Platform

120

Filtration level "x"

121

turbolino rotors force coupling gear

122

Stabilizer / stabilizer with internal kinetic force transmission device (eg wave)

123

turning device for water reigns and / or. water planing

124

Photovoltaic / Photovoltaic Module

124a

photovoltaics optional / photovoltaic module optional

125

fuel cell (Optional)

126

In stock for transportable water trap

127

line adapter between at least two vehicles with or without pump (s)

128

Power generation module kinetic energy

129

rotor platform

130

Silobrunnenmodul for semitrailer and / or. semitrailer vehicle

131

Interim storage, constructive

132

easiest Turbolino rotor arrangement for tilt-stable position (three rotors in a triangle - preferably in an equilateral triangle

133

any long (as needed)

134

Water quality "n" / water quality "x"

135

step system

136

Two-stage system

137

Three-stage system

138

Bottle / container filling device and / or -investment

138a

Bottle / container sealing device and / or plant

139

Bottle / container packaging device and / or plant

140

mobile (r) Output water tank (s)

141

Semitrailer tank (s)

142

shipping containers (empty and / or full)

143

to Pumping or dispensing device (on vehicles of all kinds, platforms of all kinds, dispensers of all kinds on land, water, air)

144

rollable

145

Handle

146

Wall / Wall

147

carrying device

148

Survival fountain (Portable / mobile)

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

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• EP 1702661 [0013]
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• - DE 60001759 T2 [0013]
• - NO 20004130 [0014]
• - EP 01301686 [0014]

Claims (142)

Catalytic water extraction system technology, characterized in that they processed according to the creatively natural, energieunaufwendigeren, sunlight-independent, non-thermal water production and supply principle sea water by means of sand, gravity, flow and time so that water of different qualities from service water to agricultural water to drinking water can be produced, transported on demand and used on site. Catalytic water recovery system technology Claim 1, characterized in that the input water (preferably Seawater) before skimming the output water sufficient Sicker distance (about 80-100 cm depth, length, height) has traveled through the catalyst sand and / or gravel, and characterized in that they are independent of electrical energy works.  It can therefore also referred to as "seepage well" system technology become. System technology according to at least one of the o. G. Claims, characterized in that they preferably is modular and / or divisible into several modules is, characterized in that it is the systemic assemblies Filter or catalyst module, filter shoe, input water tank, Output water tank, ballast tank, buoyancy tank, Water extraction module, output water drainage, output water extraction interface or interface, output water adapter, input water supply, Power Transmission Unit, Beach Fountain, Beach Fountain Module, Silo Fountain, Silo well module, offshore well, offshore well module, water in water septic tank, Water-in-water septic tank module, water planer, water planer module, Wasserhobelkette, Wasserhobelstrang, Wasserhobelschiff, Wasseregge, Wassereggen-Modul, Wasserreuse, Wasserreusen-Modul, Wasserreuse (mobile), water trap module (mobile), wall well, wall well module, Wall fountain, Wall well module, Pond well, Pond well module, turbolino rotor system, turbolino module (s) (OktoPROPP / DuoPROPP / QuatroPROPP / VarioPROPP module (s)), water separator, Water diverter module, water station, platform, filtration stage, Stabilizer, stabilizer with internal kinetic force transmission device, Support for transportable water trap, line adapter between at least two vehicles with or without pump (s), power generation module kinetic energy, silo module for semitrailer, one-stage system, Two-step system, three-step system acts. System technology according to at least one of the o. G. Claims, characterized in that in particular used for the extraction of water from seawater., System technology according to at least one of the o. G. Claims, characterized in that the catalyst material Sand is. System technology according to at least one of the o. G. Claims, characterized in that the catalyst material Gravel - preferably fine gravel - is. System technology according to at least one of the o. G. Claims, characterized in that the catalyst material a mixture of sand and gravel. System technology according to at least one of the o. G. Claims, characterized in that the catalyst material is a mixture with the main components sand and / or gravel. System for technology according to at least one of the above claims, characterized in that it is a one-level system ( 135 ) with at least one output water tank ( 70 ) in which the catalyst and / or filter material ( 5 ) loosely and / or in a suitable material, the output water tank is placed upstream at a suitable location ( 1 ), and characterized in that the output water tank ( 70 ) is such that the recovered output water preferably by means of a tap device (with or without pump) directly ( 45 ) and / or indirectly via an output water line of any length ( 4 ) and corresponding output water sampling interfaces ( 41 ) is available or removable or can be tapped, and characterized in that the output water container optionally at a suitable point output water inlet recesses ( 1c ) having. Such a single-stage output water tank should be such that the catalyst and / or filter material can not or not too much penetrate into the output water tank. Such a one-stage water recovery system is particularly suitable for use in the input water (( 3 ); z. Seawater) itself ( 4 ) and / or in the catalyst material ( 5 ; z. Sand, gravel) itself ( 1 . 2 u. 3 ). One-level system ( 50 ) for catalytic water recovery system technology according to at least one of the above claims, characterized in that it is designed for rising input water upwards. One-stage system for catalytic water recovery system technology after at least ei nem of the above claims, characterized in that the output water tank a hose ( 13b ) is ( 1 u. 9 ). One-stage system for catalytic water recovery system technology according to at least one of the above claims, characterized in that the output water tank is a pipe ( 13a ) is ( 1 u. 7 ). Single-stage system for catalytic water recovery system technology after at least one of the o. g. Claims, characterized in that the output water tank a combination of hose and pipe is. Water extraction module for catalytic water recovery system technology after at least one of the o. g. Claims, characterized that it is a combination of multiple level systems. System for catalytic water extraction system technology according to at least one of the above claims, characterized in that it is a two-stage system ( 136 ) with at least one input water tank ( 20 ) and with at least one output water tank ( 70 ) in which the catalyst and / or filter material ( 5 ) loose and / or in a suitable material ( 50a ), is placed at a suitable place between the input water tank and the output water tank ( 2 ), and characterized in that the output water tank ( 70 ) is such that the recovered output water preferably by means of a tap device (with or without pump) directly ( 45 ) and / or indirectly via an output water line of any length ( 4 ) and corresponding output water sampling interfaces ( 41 ) is available or removable or can be tapped, and characterized in that the output water tank and / or the input water tank optionally at a suitable location water inlet recesses ( 1c ) having. Suitable location of the catalyst and / or filter placement can be both a bulge ( 50b ) in the input water tank and / or in the output water tank. Such a two-stage output water tank should be such that the catalyst material can not or not too much penetrate into the output water tank. Such a two-stage water recovery system is also suitable as the one-step system for use in the input water (eg seawater) itself ( 4 ) and / or in the catalyst material (eg sand, gravel) itself ( 1 - 3 ). One or two-stage system for catalytic water recovery system technology according to at least one of the above claims, characterized in that it is a combination ( 9 ) of several hose-like modules ( 12b ) in a comprehensive hose module ( 13b ). One or two-stage system ( 50 ) for catalytic water recovery system technology according to at least one of the above claims, characterized in that it is a combination ( 7 ) of several tubular modules ( 12a ) in a comprehensive tube module ( 13a ). One or two-stage system for catalytic water recovery system technology after at least one of the o. g. Claims, characterized that it is a combination of several tubular and / or tubular Modules in this comprehensive hose module is. Two-stage system for catalytic water recovery system technology after at least one of the o. g. Claims, characterized in that it is a combination of several tubular and / or tubular modules in a comprehensive this tube module. Water extraction module for catalytic water extraction system technology according to at least one of the above claims, characterized in that it consists of a combination of at least one two-stage system ( 136 ) and / or at least one two-stage system sub-stage with at least one input water tank ( 20 ) and at least one output water tank ( 70 ) consists. Water extraction module for catalytic water recovery system technology according to at least one of the above claims, characterized in that it consists of a combination of at least one level system ( 135 ) and at least one two-stage system ( 136 ) consists. System for catalytic water extraction system technology according to at least one of the above claims, characterized in that it is a three-stage system ( 137 ) with at least one input water tank ( 20 ) and at least one catalyst and / or filter material container ( 50 ) and with at least one output water tank ( 70 ), in which the catalyst and / or filter material container between the input water tank and the output water tank is placed at a suitable location, and characterized in that the output water tank ( 70 ) is such that the recovered output water preferably by means of a tap device (with or without pump) directly ( 45 ) and / or indirectly via an output water line of any length ( 4 ) and corresponding output water sampling interfaces ( 41 ) is available or removable or can be tapped, and characterized in that the output water tank and / or the input water tank optionally Wasse at a suitable location Entrance recesses ( 1c ) having. Such a three-stage output water tank should be such that the catalyst material can not or not too much penetrate into the output water tank. Such a three-stage water recovery system is more suitable for use outside the input water (eg seawater) and / or the catalyst and / or filter material (eg sand, gravel). Three-step system ( 50 ) for catalytic water recovery system technology according to at least one of the above claims, characterized in that it comprises a combination of several hose-like modules ( 12b ) in a comprehensive hose module ( 13b ). Three-stage system for catalytic water recovery system technology according to at least one of the above claims, characterized in that the shape of the system is a combination of several tubular modules ( 12a ) in a comprehensive tube module ( 13a ). Three-stage system for catalytic water recovery system technology after at least one of the o. g. Claims, characterized in that it is a combination of several tubular and / or tubular modules in a comprehensive hose module this is. Three-stage system for catalytic water recovery system technology after at least one of the o. g. Claims, characterized in that the shape of the system is a combination of several hose and / or tube-like modules in a comprehensive this tubular module. Water extraction module for catalytic water extraction system technology according to at least one of the above claims, characterized in that it consists of a combination of at least one three-stage system ( 137 ) and / or three-stage system sub-stage with at least one input water tank ( 20 ) and with at least one catalyst and / or filter material container ( 50 ) and at least one output water tank ( 70 ). Water extraction module for catalytic water recovery system technology according to at least one of the above claims, characterized in that it consists of a combination of at least one level system ( 136 ) and at least one three-level system ( 137 ). Water extraction module for catalytic water extraction system technology according to at least one of the above claims, characterized in that the system consists of a combination of at least one level system ( 135 ) and at least one two-stage system ( 136 ) and at least one three-level system ( 137 ). System for catalytic water recovery system technology after at least one of the o. g. Claims, characterized that several output water tanks are coupled together are that the entire output water at a locally arbitrary Place between and / or at the output water tanks of the conduit-connected output water tank tapable is. System for catalytic water extraction system technology according to at least one of the above claims, characterized in that it is a beach fountain ( 101 ), characterized in that it is placed deep enough (at least approximately 80-100 cm) in the region of the beach and / or shores of waters in the local beach and / or riverbank ( 1 . 2 u. 3 ). System for catalytic water recovery system technology according to at least one of the above claims, characterized in that it is a silo fountain ( 102 ), characterized in that it uses the gravitational force and optionally also the mass force of water or water masses for seeping the input water, and characterized in that it uses the system and process immanent factor time in the form of sufficient seeping time. Silo well for catalytic water recovery system technology according to claim 32, characterized in that it comprises at least one input water tank, at least one catalyst and / or filter module, at least one output water tank and at least one output water extraction device ( 45 ) consists ( 5 - 10 ). Silo wells for catalytic water recovery system technology according to claim 32, characterized in that it consists of at least a catalyst and / or filter module, at least one output water tank and at least one output water sampling device. Silo wells for catalytic water recovery system technology after at least one of the o. g. Claims, characterized that he installed free-standing as at least one system unit is. Silo fountain for catalytic water extraction system technology according to at least one of the above claims, characterized in that it is installed free-standing as at least two system units in such a way that it creates a silo system. Silo wells for catalytic water extraction system technology according to at least one of the above claims, characterized in that it as at least one system unit on a truck semi-trailer ( 111 ), Trailer and / or a vehicle bed is installed so that the input water through the at least one catalyst and / or filter module ( 50 ) Can seep towards the output water abstraction interface ( 10 ). Silo fountain for catalytic water extraction system technology according to at least one of the above claims, characterized in that it as at least one system unit unfree standing in a commercial shipping container ( 142 ) or a container of any other kind is installed, that this Silo fountain design is as flexible as possible or usable. Silo fountain for catalytic water extraction system technology according to at least one of the above claims, characterized in that it as at least one system unit unfree standing in an extra silo fountain frame ( 90 ) is installed. Silo wells for catalytic water recovery system technology after at least one of the o. g. Claims, characterized that he as at least one system unit unfree standing in one extra silo base frame is installed and characterized that he is in a commercial sea container or a Container of any kind is adjustable, so this silo fountain design as flexible as possible or usable. Silo wells for catalytic water recovery system technology after at least one of the o. g. Claims, characterized that he is free or unfree in the ground as at least one system unit is placed, as well as characterized in that he is in an extra Silo fountain frame and / or foundation is installed or too Not. Silo well for catalytic water recovery system technology according to at least one of the above claims, characterized in that it is installed as at least one system unit in an extra silo base frame so that it can be connected to a crane ( 91 ) can hang ( 9 ). Such a kind of crane silo fountain can be used, in particular, on steep coasts by placing the silo wells, including the input water module and the silo base frame into the water ( 10 ) dips in to pick up the input water, then hoists it up again and stops or locks it on land and / or on a vehicle. System for catalytic water extraction system technology according to at least one of the above claims, characterized in that it is an offshore well ( 101 ), characterized in that it is placed sufficiently deep in the seabed (at least about 80-100 cm), and characterized in that it uses the gravitational force and optionally also the mass force of water or water masses for seeping the input water, and thereby characterized in that it uses the system- and process-immanent factor time in the form of sufficient seepage time ( 4 ). Offshore well according to claim 43, characterized that it consists of at least one input water tank, at least a catalyst and / or filter module, at least one output water tank and at least one output water sampling device. Offshore well according to claim 43, characterized that it consists of at least one catalyst and / or filter module, at least one output water tank and at least one output water extraction device consists. System for catalytic water recovery system technology according to at least one of the above claims, characterized in that it is a water-in-water well ( 103 ), characterized in that it is completely surrounded by seawater, and characterized in that it uses the gravitational force and optionally also the mass force of water or water masses for seeping the input water, and characterized in that it is the system and process immanent factor Uses time in the form of sufficient drainage time ( 4 . 22 - 26 ). Water-in-water well according to claim 46, characterized characterized in that it consists of at least one input water tank, at least one catalyst and / or filter module, at least one output water tank and at least one output water sampling device. Water-in-water well according to claim 46, characterized characterized in that it consists of at least one catalyst and / or Filter module, at least one output water tank and consists of at least one output water sampling device. System for catalytic water extraction system technology according to at least one of the above claims, characterized in that it is a Wasserhobelkette ( 105 ) from modula water planes ( 104 ; 11 ), characterized in that it is completely surrounded by seawater, and characterized in that it uses for the seepage of the input water, the gravitational force and / or the flow force of water or water masses, and characterized in that it is the system and process immanent factor Uses time in the form of sufficient drainage time ( 15 ). Water planer ( 104 ) for Wasserhobelkette according to claim 49, characterized in that it consists of at least one input water tank, at least one catalyst and / or filter module, at least one output water tank and at least one output water sampling device ( 11 - 14 ). Water planer for Wasserhobelkette according to claim 49, characterized in that it consists of at least one catalyst and / or filter module, at least one output water tank and at least one output water sampling device. Water Planer Chain ( 105 ) according to claim 49, characterized in that it is installed by weights, foundation or otherwise at a fixed position in the water ( 20 ). System for catalytic water extraction system technology according to at least one of the above claims, characterized in that it is a mobile Wasserhobelkette ( 105a ), characterized in that it is completely surrounded by seawater, and characterized in that it uses for the seepage of the input water, the gravitational force and / or the flow force of water or water masses, and characterized in that it is the system and process immanent factor Time in the form of sufficient drainage time and that it can be brought into the water by watercraft of all kinds, pulled by them, brought back on board and transported to any place ( 16 - 19 ). Mobile Water Planer Chain ( 105a ) according to claim 53, characterized in that it consists of at least one input water tank, at least one catalyst and / or filter module, at least one output water tank and at least one output water sampling device. Mobile Wasserhobelkette according to claim 53, characterized characterized in that they consist of at least one catalyst and / or Filter module, at least one output water tank and consists of at least one output water sampling device. Mobile planer for catalytic water recovery system technology according to claim 53, characterized in that it comprises a non-positive and / or positive toothed belt device, which facilitates the feeding and the deployment of the mobile Wasserhobelkette 13 u. 14 ). System for catalytic water extraction system technology according to at least one of the above claims, characterized in that it is a water breeze ( 106 ), characterized in that it is completely surrounded by seawater, and characterized in that it uses for the seepage of the input water, the gravitational force and / or the flow force of water or water masses, and characterized in that it is the system and process immanent factor Uses time in the form of sufficient drainage time ( 18 u. 19 ). Water reign according to claim 57, characterized that they consist of at least one input water tank, at least a catalyst and / or filter module, at least one output water tank and at least one output water sampling device. Water reign according to claim 57, characterized that they consist of at least one catalyst and / or filter module, at least one output water tank and at least one Output water extraction device consists. Wassergegge according to claim 57, characterized in that it is one-layered next to each other, organized in front of and behind each other ( 18 ). Wassergegge according to claim 57, characterized in that it is multilayered next to each other, in front of and behind each other as well as above and below each other is organized ( 19 ). System for catalytic water extraction system technology according to at least one of the above claims, characterized in that it is a water purifier ( 107 ), characterized in that it is completely surrounded by seawater, and characterized in that it uses the gravitational force for the infiltration of the input water, and characterized in that it uses the system and process immanent factor time in the form of sufficient seepage time ( 22 - 26 ). Water purifier for catalytic water recovery system technology according to claim 62, characterized in that it is three-stage ( 137 ) from at least one input water tank, at least one catalyst and / or Fil termodul, at least one output water tank and at least one output water extraction device consists. Water litter according to claim 62, characterized in that it is two-stage ( 136 ) consists of at least one catalyst and / or filter module, at least one output water tank and at least one output water extraction device. System for catalytic water recovery system technology according to at least one of the above claims, characterized in that it is a mobile water purifier ( 107a ), characterized in that it is completely surrounded by seawater, and characterized in that it uses the gravitational force for the seepage of the input water, and characterized in that it uses the system and process immanent factor of time in the form of sufficient seeping time, and thereby marked as an independent construction ( 90 ( 107a ); 24 ) for example by helicopter ( 112 ), Ship crane ( 91 ) and / or other crane vertically from a designated frame construction ( 90 ) by means of ropes ( 92 ) can be withdrawn and placed at a suitable and / or provided elsewhere ( 24 ). Mobile water purifier according to claim 65, characterized in that it is of three-stage system ( 137 ) consists of at least one input water tank, at least one catalyst and / or filter module, at least one output water tank and at least one output water extraction device. Mobile water purifier according to claim 65, characterized in that it is two-stage ( 136 ) consists of at least one catalyst and / or filter module, at least one output water tank and at least one output water extraction device. System for catalytic water extraction system technology according to at least one of the above claims, characterized in that it is a wall well ( 108 ), characterized in that it consists of a chamber-like cavity, which has architectural provisions and devices that can accommodate the seep system systems, and characterized in that it uses the gravitational force for the seepage of the input water, and characterized in that it uses the system- and process-immanent factor time in the form of sufficient seepage time ( 27 ). Wall well according to claim 68, characterized that it consists of at least one input water tank, at least a catalyst and / or filter module, at least one output water tank and at least one output water sampling device. Wall well according to claim 68, characterized that it consists of at least one catalyst and / or filter module, at least one output water tank and at least one Output water extraction device consists. System for catalytic water extraction system technology according to at least one of the above claims, characterized in that it is a wall well ( 109 ), characterized in that it consists of a chamber-like cavity, which has architectural provisions and devices capable of accommodating the septic system assemblies, and is characterized by the fact that it uses the gravitational force to infiltrate the input water, and is characterized by the system - and process-immanent factor uses time in the form of sufficient seepage time ( 28 ). Wall fountain according to claim 71, characterized in that it has three-stage systemic ( 137 ) consists of at least one input water tank, at least one catalyst and / or filter module, at least one output water tank and at least one output water extraction device. Wall fountain according to claim 71, characterized in that it is two-stage ( 136 ) consists of at least one catalyst and / or filter module, at least one output water tank and at least one output water extraction device. Wall fountain according to claim 71, characterized in that it provides the necessary energy for pumping the input water next to the rampart into the wall area above the seepage well installation by means of kinetic-mechanical power transmission from a wind turbine installation ( 117 ; 46 ), consisting of at least one wind turbine, relates. Wall well according to claim 71, characterized in that it provides the necessary energy for pumping the input water next to the rampart into the rampart above the seepage well installation by means of kinetic-mechanical power transmission from a turbino-water propeller plant ( 116 ; 39 . 40 . 43 - 45 ), consisting of at least one turbino module ( 116 ) with at least one rotor ( 14 ) together with at least one power transmission device ( 17 ) with at least one intermediate storage ( 131 ). Wall well according to claim 71, characterized in that it provides the necessary energy for pumping the input water next to the rampart into the wall area above the seepage well installation by means of kinetic-mechanical power transmission from a combination of at least one wind turbine installation ( 117 ), comprising at least one wind turbine, and at least one turbino-Wasserströmungspropelleranlage consisting of at least one turbino module ( 116 ) with at least one rotor including at least one power transmission device with at least one intermediate storage. System for catalytic water extraction system technology according to at least one of the above claims, characterized in that it is a pond well ( 110 ), characterized in that it consists of a chamber-like depression in sandy and / or gravelly and / or lavagesteinigem terrain ( 11 ), which has architectural features and devices that can accommodate the seepage system assemblies, and is characterized by using the gravitational force to seep the input water, and characterized by having the system and process inherent time factor in the form of sufficient Seeping time, and characterized by the optional use of a seepage assisting fleece ( 21 ), which is partially interrupted or omitted or not ( 29 u. 30 ). Pond well according to claim 77, characterized in that it is two-stage ( 136 ) from at least one catalyst and / or filter module ( 50 ), an output water tank system with at least one output water tank ( 70 ) and at least one output water extraction line ( 4 ) and at least one output water sampling device ( 45 ) consists. Pond well according to at least one of the above claims, characterized in that it is one-stage ( 135 ) an output water tank system with at least one output water tank ( 70 ) and at least one output water extraction line ( 4 ) and at least one output water sampling device ( 45 ) consists. Transport system for catalytic water extraction system technology according to at least one of the above claims, characterized in that it is a specially equipped and / or freighted helicopter ( 112 ), which in flight pumps the input water into the cargo hold and / or into the available silo module, and which uses the necessary time of flight to the destination for the also necessary inflow time for the pumped water ( 35 ). Transport system according to claim 80, characterized in that the helicopter has at least one output water line ( 4 ), at least one output water line interface ( 43 ), at least one input water line ( 31 ) and / or at least one input water line interface ( 33 ), which allows the pumping out of the incoming input water ( 3 ) or seawater ( 10 ) and / or the output water produced by the seepage process ( 7 ) to other water extraction system and / or local water infrastructure system aggregates and / or structures or facilities. Transport system for catalytic water recovery system technology after at least one of the o. g. Claims, characterized in that it is a specially equipped and / or freighted one Airplane is in flight the input water into the cargo hold and / or pumps into waiting silo module, and that the necessary flight time to the destination for the likewise necessary seeping time for uses the pumped water. Transport system according to claim 82, characterized in that the aircraft has at least one output water line ( 4 ), at least one output water line interface ( 43 ), at least one input water line ( 31 ) and / or at least one input water line interface ( 33 ), which allows the pumping out of the incoming input water ( 3 ) or seawater ( 10 ) and / or the output water produced by the seepage process ( 7 ) to other water extraction system and / or local water infrastructure system aggregates and / or structures or facilities. Transport system for catalytic water recovery system technology according to at least one of the above claims, characterized in that it is a specially equipped and / or freighted hovercraft which pumps while driving the input water into the cargo hold and / or standing in Silobrunnenmodule, and the necessary Travel time to the destination for the likewise necessary seepage time for the pumped water uses ( 35 ). Transport system according to Claim 84, characterized in that the hovercraft is connected via at least one output water line ( 4 ), at least one output water line interface ( 43 ), at least one input water line ( 31 ) and / or at least one input water line interface ( 33 ), which allows the pumping out of the incoming input water ( 3 ) or seawater ( 10 ) and / or the output water obtained by the seepage process ( 7 ) to other water extraction systems and / or to the local water infrastructure ensure systemic aggregates and / or structures or facilities. Transport system for catalytic water extraction system technology according to at least one of the above claims, characterized in that it is a specially equipped and / or freighted watercraft ( 115 ), which pumps the input water into the cargo space and / or into available silo pump modules during the journey, and which uses the necessary travel time to the destination for the also required inflow time for the pumped-in water ( 36 ). Transport system according to Claim 86, characterized in that the vessel is connected via at least one output water line ( 4 ), at least one output water line interface ( 43 ), at least one input water line ( 31 ) and / or at least one input water line interface ( 33 ), which allows the pumping out of the incoming input water ( 3 ) or seawater ( 10 ) and / or the output water obtained by the seepage process ( 7 ) to other water extraction system and / or local water infrastructure system aggregates and / or structures or facilities. Transport system according to claim 86, characterized in that the vessel is driven by crane and / or loading devices ( 91 ) loading (loading and unloading) of at least one silo module ( 102 ) and / or at least one input water tank ( 20 ) of any kind and / or at least one output water tank ( 70 ) and / or at least one with at least one silo well module ( 102 ) loaded container and / or at least one with at least one input water tank ( 20 ) of any kind loaded containers and / or at least one with at least one output water tank ( 70 ) container. Transport system according to claim 86, characterized in that the vessel is driven by an inlet water inlet ( 36 ) by means of a recess in the fuselage ( 48 ) ( 36 ). Transport system according to claim 86, characterized in that the vessel is driven by an inlet water inlet ( 36 ) by means of a recess in the fuselage ( 48 ) ( 37 ). Transport system according to at least one of the above claims, characterized in that it is a water plane ( 115 ), via an input water inlet ( 36 ) by means of a recess in the fuselage ( 48 ), and by driving or speed of travel, the necessary flow pressure in the input water inlet nozzle ( 37 ), so that the input water ( 3 ) through the at least one catalyst module ( 50 ) and then in at least one output water tank ( 70 ) to be caught ( 38 ). Transport system according to claim 91, characterized in that the water plane watercraft via at least one output water line ( 4 ), at least one output water line interface ( 43 ), at least one input water line ( 31 ) and / or at least one input water line interface ( 33 ), which allows the pumping out of the incoming input water ( 3 ) or seawater ( 10 ) and / or the output water obtained by the seepage process ( 7 ) to other water extraction system and / or local water infrastructure system aggregates and / or structures or facilities. Transport system according to claim 91, characterized in that the water plane watercraft via at least one protector ( 83 ) in order to ensure that as many as possible no marine inhabitants are allowed into the area in the inlet 37 ), the surface of the catalyst module ( 50 ). System for catalytic water extraction system technology according to at least one of the above claims, characterized in that it is a tube well ( 102 ), characterized in that it is located in walls and / or walls, which has architectural provisions and devices that can accommodate the seepage system modules modular, and characterized in that it uses the gravitational force for the infiltration of the input water, and thereby characterized in that it uses the system- and process-immanent factor time in the form of sufficient seepage time ( 49 ). Pipe well according to Claim 94, characterized in that it has a single-stage system ( 135 ) from at least one catalyst and / or filter module ( 50 ) with at least about one meter of seepage length or depth. Pipe well according to claim 94, characterized in that it is two-stage ( 136 ) from at least one catalyst and / or filter module ( 50 ) and at least one input water module ( 20 ) Is provided. Pipe wells according to at least one of the above claims, characterized in that it positive and non-positive and waterproof in the conventional drinking and service water pipe structure ( 31 ) is placeable. Pipe well according to at least one of the above claims, characterized in that it comprises at least one handle ( 145 ) is equipped for insertion and withdrawal of the tube well. Pipe well according to at least one of the above claims, characterized in that it is placed as a channel well outside of buildings and possibly also more horizontal superficial and / or underground ( 47 u. 48 ). Additional device for pipe wells according to at least one of the above claims, characterized in that these with at least one branch pipe ( 4 ) and at least one shut-off device ( 34 ) is provided in order to ensure or permit an interruption-free operation if the at least one catalyst and / or filter module ( 50 ) must be checked, replaced and / or maintained ( 48 ). System for catalytic water extraction system technology according to at least one of the above claims, characterized in that it is a mechanical power plant ( 116 ) as an integrated, modular flow force utilization, conversion and transfer system for utilizing kinetic fluid flow energy (s) and / or forces for purely mechanical power transmission, preferably in seawater ( 39 . 40 . 43 - 45 ). Plant according to claim 101, characterized that it consists of several modular assemblies. Plant according to at least one of the preceding Claims, characterized in that they preferably the kinetic flow energy of their fluid environment converted or transformed into rotating movement and / or movements. Plant according to at least one of the preceding claims, characterized in that it comprises at least one rotor ( 14 ) for receiving fluid flow energies. Installation according to at least one of the preceding claims, characterized in that it comprises at least one transmission ( 16 ) for transmitting power to each rotor ( 14 ) having. Plant according to at least one of the preceding claims, characterized in that it comprises at least one universal joint ( 18 ) for position compensation and / or power transmission between the rotor gear (s) and gear (s) of the at least one target assembly for the kinetic transmission has. Plant according to at least one of the preceding Claims, characterized in that they are at least a load and / or flow direction change-over differential having. Plant according to at least one of the preceding Claims, characterized in that they are at least a load and / or flow direction change-over differential has, as an interruption-free power transmission guaranteed to the target aggregate. Plant according to at least one of the preceding Claims, characterized in that they are at least a coupling between the rotor (s) and the target unit (s). Plant according to at least one of the preceding Claims, characterized in that they are at least a power transmission unit (eg shaft constructions) with or without transmission media change (eg shaft-shaft, rope-shaft-rope, Shaft-belt-rope-shaft, etc.) with or without appropriate media interfaces having. Plant according to at least one of the preceding Claims, characterized in that they are at least a static device or construction, which ensures that neither several rotors, nor several power transmission units (eg shaft constructions) touching each other and / or adversely affect in any form and / or in any way and / or damage and / or destroy. Plant according to at least one of the preceding Claims, characterized in that they are sufficient Devices and / or correction systems for position and / or position retention having in the flow medium. Plant according to at least one of the preceding Claims, characterized in that they are sufficient Devices and / or correction systems for controlled - preferably vertical - position and / or position change having in the flow medium. Plant according to at least one of the preceding Claims, characterized in that they possible has many identical system modules, so that production, maintenance, Spare parts inventory and maintenance as cost-effective as possible. Plant after at least one of the preceding Claims, characterized in that it has as a target aggregate (power transmission target) at least one gear and / or a clutch unit, which serves a demand and / or flat-rate power consumption of the target unit (eg a pump or a generator) with force or mechanically and / or hydraulically actuates non-positively. Plant according to at least one of the preceding Claims, characterized in that it is a power transmission unit identifies that at least one rope or at least one rope construction consists. Plant according to at least one of the preceding Claims, characterized in that it is a power transmission unit identifies that at least one shaft or at least one shaft construction consists. Plant according to at least one of the preceding Claims, characterized in that it is a power transmission unit identifies that from at least one belt or at least one Belt construction exists. Plant according to at least one of the preceding Claims, characterized in that they have a coat and / or boxy protection for that at least has a power transmission medium or construction, which is designed so that it is wear-free or possible can work wear-free. Plant according to at least one of the preceding Claims, characterized in that they have a coat or housing-like protection, the outward to the flowing, fluid medium biochemically is environmentally neutral. Installation according to at least one of the preceding claims, characterized in that it has a signal system ( 85 ) has at least both acoustically and visually permanent attention to the presence of the system according to claim 101 to 120. Plant according to at least one of the preceding Claims, characterized in that they optionally a Signaling system, which by means of satellite communication (eg. GPS) in susceptible aircraft instruments (such as for example navigation devices) automatically and / or in good time draws attention to itself. Plant according to at least one of the preceding Claims, characterized in that they are at least a device that ensures that living things and / or sea creatures as far as possible from injurious and / or deadly Contact with the system according to claim 101 to 122 spared or be preserved. Plant according to at least one of the preceding Claims, characterized in that they have a flow force receiving Part (rotor), which also in flow direction changes and / or turbulence the best possible power transmission yield in relation to the needs of the target aggregate. Plant according to at least one of the preceding Claims, characterized in that they are at least a customer-demand-driven and / or controlled device for power redistribution or force transfer and / or forwarding for other and / or other target aggregates (secondary target aggregates, Terziär-Zielaggregate, etc.) Has. Plant according to at least one of the preceding Claims, characterized in that they are at least a position and / or position stabilizing construction and / or Device is equipped. Plant according to at least one of the preceding Claims, characterized in that they are at least a vibration and / or vibration-reducing and / or -ausgleichenden construction and / or device is equipped. Installation according to at least one of the preceding claims, characterized in that it comprises a rotor tilt protection device, the z. B. preferably in the form of a preferably equilateral three-constellation with three rotors and a three rotors lagestabilisierenden, connecting static construction is equipped ( 44 ). System for catalytic water extraction system technology according to at least one of the above claims, characterized in that it is a portable and / or mobile Survivalbrunnen ( 147 ), characterized in that it is constructed silo-like and has devices that can accommodate the seepage system assemblies, and characterized in that it utilizes the gravitational force for the seepage of the input water, and characterized in that it the time-in- factor in system and process Takes advantage of sufficient drainage time, and is characterized by having at least one input water inlet and at least one output water outlet, and by being independent of electrical energy ( 51 ). Survival well according to claim 129, characterized in that it has three-stage systemic ( 137 ) consists of at least one input water tank, at least one catalyst and / or filter module, at least one output water tank and at least one output water extraction device. Survival well according to claim 129, characterized in that it is two-stage ( 136 ) consists of at least one catalyst and / or filter module, at least one output water tank and at least one output water extraction device. Survival well according to claim 129, characterized in that the necessary input water manually by means of ladling, carrying and pouring into the input water tank ( 20 ) of the input water module ( 30 ). Survival well according to claim 129, characterized that he has optional necessary energy for pumping the Input water into the input water area by means of kinetic-mechanical power transmission from a manual pumping device and / or plant relates. Survival well according to claim 129, characterized in that it optionally supplies necessary energy for pumping the input water into the input water area by means of kinetic-mechanical power transmission from a wind turbine installation ( 117 ; 46 ), consisting of at least one wind turbine, relates. Survival well according to claim 129, characterized in that it provides the necessary energy for pumping the input water next to the rampart into the rampart above the seepage well installation by means of kinetic-mechanical power transmission from a turbino-water propeller plant ( 116 ; 39 . 40 . 43 - 45 ), consisting of at least one turbino module ( 116 ) with at least one rotor ( 14 ) together with at least one power transmission device ( 17 ) with at least one intermediate storage ( 131 ). Survival well according to claim 129, characterized in that it provides the necessary energy for pumping input water into the input water module ( 30 ) of the survival well by means of kinetic-mechanical power transmission from at least one wind turbine ( 117 ), comprising at least one wind turbine and / or at least one turbino-Wasserströmungspropelleranlage consisting of at least one turbino module ( 116 ) with at least one rotor together with at least one power transmission device with or without at least one intermediate bearing ( 131 ). Survival well according to claim 129, characterized that he is wearable by a person. Survival well after at least one of the previous ones Claims, characterized in that it comprises at least one Handle - preferably for carrying - has. Survival well after at least one of the previous ones Claims, characterized in that it backpack-like Carrying devices for carrying the Survivalbrunnens on the back and / or in front of the upper body. Survival well after at least one of the previous ones Claims, characterized in that it comprises at least one Frame construction for supporting the Survivalbrunnens has. Wall well according to claim 68, characterized in that it provides the necessary energy for pumping the input water into the input water area of the wall well by means of kinetic-mechanical power transmission from at least one wind turbine ( 117 ), comprising at least one wind turbine and / or at least one turbino-Wasserströmungspropelleranlage consisting of at least one turbino module ( 116 ) with at least one rotor together with at least one power transmission device with or without at least one intermediate bearing ( 131 ). Pond well according to claim 77, characterized in that it provides the necessary energy for pumping the input water into the input water area of the pond well by means of kinetic-mechanical power transmission from at least one wind turbine installation ( 117 ), comprising at least one wind turbine and / or at least one turbino-Wasserströmungspropelleranlage consisting of at least one turbino module ( 116 ) with at least one rotor together with at least one power transmission device with or without at least one intermediate bearing ( 131 ).