"Method of instrumental enrichment of metal-containing ores"
Dear friends, I have patented a new method of mining non-ferrous and rare
metals on land, under the surface, in the sea, and even in the vacuum – for
instance, on Mars. The physical principle of the process that helps detect
metal particles and collect them does not depend on the humidity of the
material, the external pressure, and even the temperature of the materials
that the mining equipment is made if they can sustain such conditions and
not melt. The machine should be equally effective working in the depths of
the sea (at depths of up to 5-7 km), in the vacuum, on planets with no
atmosphere and with zero pressure, on Earth and other planets at extremely
high temperatures close to 700-800 degrees Celsius. Mining can be performed
in the hot sands of the Sahara desert at +60 degrees, and in South Africa,
where people never considered mining rare metals without water. The metal
is patented under the title “Method of automated artificial enrichment of
metal-containing ores”. If you ask me whether I consider this achievent
important, I will tell you that I do, and not just for myself, but the
humanity as a whole. I am sure that if everything goes well, this
technology can seriously disrupt the commodity markets. One floating
platform can process at least 600 thousand cubic meters of soil with 20
onboard units. As we know, you can extract 5-8, sometimes up to 20 grams
from a cubic meter. And there can be dozens or even hundreds of such
platforms. I assumed a mere 3 grams per cube and got some really
interesting figures. Models can vary in size: from small and portable (the
size of a backpack), to large ones consisting of hundreds of plates. As
many as 50 blocks can be installed on nuclear-powered icebreakers and
easily process a million cubic meters of gold-containing underwater soil
per day. If it sounds like a tale to some people, they are wrong – it’s
more real than thousands of other projects out there. Speaking of
complexity, let me give you an example: a modern submarine is 100 time more
complex that such a machine, let alone an airplane, which is 1000 more
technically complex.
So guys, expect some tectonic shifts on the market of non-ferrous and rare
metal.
I will provide more details about all the models and their functionality in
a day. https://findpatent.ru/patent/270/2700742.html
https://www.facebook.com/DahirSemenov/media_set?set=a.1801047880018748&type=3
Видео "Method of instrumental enrichment of metal-containing ores" канала Dahir Insaat
metals on land, under the surface, in the sea, and even in the vacuum – for
instance, on Mars. The physical principle of the process that helps detect
metal particles and collect them does not depend on the humidity of the
material, the external pressure, and even the temperature of the materials
that the mining equipment is made if they can sustain such conditions and
not melt. The machine should be equally effective working in the depths of
the sea (at depths of up to 5-7 km), in the vacuum, on planets with no
atmosphere and with zero pressure, on Earth and other planets at extremely
high temperatures close to 700-800 degrees Celsius. Mining can be performed
in the hot sands of the Sahara desert at +60 degrees, and in South Africa,
where people never considered mining rare metals without water. The metal
is patented under the title “Method of automated artificial enrichment of
metal-containing ores”. If you ask me whether I consider this achievent
important, I will tell you that I do, and not just for myself, but the
humanity as a whole. I am sure that if everything goes well, this
technology can seriously disrupt the commodity markets. One floating
platform can process at least 600 thousand cubic meters of soil with 20
onboard units. As we know, you can extract 5-8, sometimes up to 20 grams
from a cubic meter. And there can be dozens or even hundreds of such
platforms. I assumed a mere 3 grams per cube and got some really
interesting figures. Models can vary in size: from small and portable (the
size of a backpack), to large ones consisting of hundreds of plates. As
many as 50 blocks can be installed on nuclear-powered icebreakers and
easily process a million cubic meters of gold-containing underwater soil
per day. If it sounds like a tale to some people, they are wrong – it’s
more real than thousands of other projects out there. Speaking of
complexity, let me give you an example: a modern submarine is 100 time more
complex that such a machine, let alone an airplane, which is 1000 more
technically complex.
So guys, expect some tectonic shifts on the market of non-ferrous and rare
metal.
I will provide more details about all the models and their functionality in
a day. https://findpatent.ru/patent/270/2700742.html
https://www.facebook.com/DahirSemenov/media_set?set=a.1801047880018748&type=3
Видео "Method of instrumental enrichment of metal-containing ores" канала Dahir Insaat
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