It would also be completely sufficient if people find a strong rope to the can
sink basin with the feet on a slope supporting manner,slowly and would while
simultaneously pulling up a quantity of water that a total of about 1 kg less in
weight accounts than their own body weight!
Why, of course, first over 1.5 m above the water basin Crossbeams would that in
turn are supported by at least two vertical posts must be!
To this end, it makes sense, right at the building of the pool them on the
platform for the Water basin and the basin then set up to build it were tuned!
Next would Crossbeams on a movable part of a hook to be secured,allow it the
time required for this load movement smooth cable movement to!
What would need more total less water, though some helpers to Available would
be to take turns as mentioned on the cable secured to the Uppull of the water,
would stoop with their feet on the slopes of supporting the above!

Probably could thus rather easy - so far with less effort - and yet But overall,
a larger amount of water for power generation up and transported be drawn!
With best regards, Thomas Karnasch

Wednesday 20 April 2011

Self-sufficient water power stations for self-construction Manually propelled
Build your own water power station Blueprints for a wind turbine generator.
The seal is shown above prove that the copyright for Politicians-in-critical-
observation lie!
Naturally, the politicians in Sub-critical observation underlying copyright that
idea really just prior to the formation of Protect monopoly positions!
What next for families or small businesses the unfettered use possible to protect
this water power station with power and muscle!

Self-sufficient water power plants for developing countries to direct machinedrive,
or even for simple electricity.

A slope or a small hill could be the ideal conditions - to operate their own small hydroelectric plant constructed to!

A minimum height of 10m it should be possible!
Top of the slope would have a kind of balcony to be erected which, owing to the
expected load of some 1,000 liters of water, not only laid on and on Slope would
be fixed.But what in the next with a minimum of 4 stable and firm ground set out
support from probably would have to be supported!
In or under the water would have a balcony with a funnel at least 20cm large and
round drain opening watertight in the middle or at the lowest point Werede
attached so the water can flow freely to use,10cm over the information to be
attached flow tubes (probably at least Diameter centered), and thus more power to
flow down to final-wrapping!

It probably makes sense together down a small water wheel (two-built bicycle
wheels - link above) in an artificial circle run in river firmly installed in
order machines directly on the extended axis of rotation to be able to drive -
about as old car fan belt with associated Auto-drive disks for Beispiel.Womit
course also an old Generator of a small car could be driven to generate electricity.
Build your own water wheel

Must continue on the other side of the water a long sloping terraces of at least
50m be present, probably still in a flat appropriate not to steep state / edited
must be prepared! What ultimately to drive the water wheel, used in water possible, waterproof and large pneumatic tires and cars would be pulled up!

It would be conceivable to the fact that on one person as it were, draw weight
ropemr carefully omits the water pipe to carry the dead weight sinking to
facilitate the raising of the water car!
If enough people are there, they might also have other then traction than men's
refrain on the rope!
What it seinkann then suitable for rapid re-emergence, in near a ladder secured to hire!
Build your own water wheel

Gladly, this publication without the express release of the Seal and the author -
the prevention of the formation of monopolies - to further detailed discussion and justification of recognized common-profit organizations to better use for ordinary
people used be!

In one liter of water per second would be the 3600 l of water per hour!
The power P is therefore dependent on water flow Q (in m / s) and the Drop
height h (m) and of the efficiencies η of the feed, the Water turbine, the
gearbox, generator and transformer.

P = Q xhx 7/kn/m3
P = 0.1 x 100m m3/sx 7/kn/m3 = 70kW = o, oo1 m3 x 10m x 7/kn/m3 = o, 7 kW
1l = In a second would be the 3600l an hour - what a performance correspond to
about 0.7 kw, what would erziehlen then at least relatively easily should be -
but actually even more!

Build your own tackle
Perhaps an alternative

With best regards, Thomas Karnasch