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DBHD 1.4.2 - International Version

Most countries do not have a Super World Geology like Germany near Glasin - M-V - Germany

there it has 2.000 Meter Sediments and 1.600 Meter rocksalt layer underneath >>> DBHD 1.4

(Germany is densly populated - they want it that deep, with all the pain and heat it brings ...)

Download calculation preview picture as .jpg Download calculation as sober .pdf

Download as picture file .jpg Download_024_DBHD_1.4.2_International_nuclear_repository_rocksalt_Ing_Goebel_Germany as .pdf

Download offer-invoice Bouygues as .pdf

Download Time Table preview picture as .jpg Download Time Table in Englisch as .pdf

Download poster as .jpg

Why DBHD 1.4.2 International is a safe repository that lasts tight 1-10 million years :

- safety arises from storage in a 250 million year old rocksalt geology !

  We assume that a geology sited there dry and warm for 250 million years

  will stay another 1-10 million years more dry and warm there

- the DBHD stores so deep, that even deep ice age scarfs do not reach the

   deep nuclear repository (check the existing scarf depth in your country)

- DBHD always stores in an undisturbed rock salt LAYER - not in a salt dome !

  Because bulge-up dome anomalies laterally entrap other geologies, and if you

  then disposed to close to the surface, as in the ASSE, meteoric water can penetrate

  Only an un-disturbed, deep, special and powerful rock salt layer can repository.

- in rock salt even the hardest gamma radiation only reaches 30 cm !!!

- The rock salt does not allow volatile gases such as the IOD 129 escape !!!

- The rock salt also isolate the highly toxic properties of nuclear waste !!!

- The safety arises from the good quality storage depth -1.350 to -2.100 m.

- The safety arises from the perfect closure - it is salt grain from the hole

  drilling filled back in the hole and the XXL mountain presses it again to

  rock salt - a perfect closure that can only be done mountain pressure! (Depth required)

- The GNS Castor Container is the world's most proven nuclear waste container

- But we also work with your HLW container like DSCs, HI-Star and other because :

- the all-round 5 meter concrete encapsulation is an additional watertight barrier

  that also keeps the mountain pressure away from your not so solit container type

- slidable single concrete pellets are poured - a column could break in a earthquake

- 2 meters of sand layer between the pellets because of the thermal expansion.

We will reach the planned drilling depth - even if the walls there are +63°C hot

when we arrive there - the slow geothermal heat flow "in the mountain" is with

only 5.4 W / mK rather minimal, so that the wall and the floor remain relatively

cool when the ventilation and the Flow-Ice bucket have cooled the environment

The new amount of heat is low - DBHD will reach - 2.100 meters storage depth.

Risks: To bring down the 130 tons Castor Container you have to put it on one

Transport steel or Dynema rope diameter 80 mm ! - Should a Castor crash down

onto 7 more waiting HLW containers i will certainly open one - then we must

give up the hole and close as planned. Or we just poor some concrete over it ?

Every Castor transport is a risk transport because even a bazooka / Panzerfaust

can open the most expensive containers ever. - We can be glad to have the castor

or other good containers - protect the containers with a weapon proof hull during

street transport. It needs armored wagons for the many transports. Safety first.

The safety gain from the geological DBHD disposal is worth these risks. Nobody can

effectively guard the interim storage facilities - especially not for very long periods ...

DBHD 1.4 has passed a second thermodynamic detection. (Dr. G. Herres / Germany)

What has to come now is the numerical long-term proof in Comsol Multiphysics.

Aging of gray cast iron by corrosion, heat transport in the rock salt layer, and

Earthquakes, and IOD 129 inclusion and and - that is a task for GRS Germany, or

Amphos 21 Spain, or VTT Finland to work on it. (Offers are currently available)

This is an XL calculation in Comsol Multiphysics - Multichemics - Very time-consuming ...

The geometry of the DBHD 1.4.2 International must be taken over exactly in 3D please.

A safe repository is possible and many countries have the deep rocksalt geology for it.

MfG - Volker Goebel - Dipl.-Ing. - final storage specialist planner ww

 

DBHD 1.4.2 International = 1.100 Meter Sediments and 1.100 Meter rocksalt cussion underneath

SOON you see the technical plans for DBHD 1.4.2 nuclear repository - the International Version

Capacity is = 58 Pellets x 8 HLW Containers = 464 HLW Containers (4.580 tons heavy metal net)

Download DBHD 1.4.2 International in english language .pdf

Download Picture of DBHD 1.4.2 International .jpg but perhaps you want to use the Canadian plan
because that is on your continent - but they have
DSCs with un-enriched uranium - that is different

https://www.ing-goebel.de/ (Canada startpage)
https://www.dbhd-hlw.de/ (also Canada on startpage)

Wish you good luck - show them the new options
and how the US like it - it is all about drilling techn.
that is what gives the new options ...

Best regards from
Volker Goebel / Dipl.-Ing.
Nucl. Rep. Planner ww