Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
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TRANSURANIUM ELEMENT OXIDE REMOVING FACILITY AFTER NUCLEAR EXPLOSION
To solve the problem that even if a nuclear bomb was exploded, not 100% of nuclear material explodes and Pu not exploded is scattered as oxidation Pu, therefore, particularly oxidation Pu falling at a region slightly away from a center of explosion is not important because the amount is small, but moderate deal must be done and transuranium element oxide other than Pu oxide must be dealt with.SOLUTION: A smooth inclined plate (11) having a triangle cross section is connected to a deposition collecting water pipe (12) waving in a lengthwise direction laid in a house site border. Transuranium element oxide is buried into the ground while falling toward the ground from a cylinder (13) of the water pipe under self-weight.SELECTED DRAWING: Figure 1
【課題】核爆弾が爆発しても核物質の100%が爆発するわけではない。爆発しなかったPuは酸化Puとなって飛び散る。それも爆心地からやや離れた地域に落下してくる酸化Puは、量が少ないから大事ではないがそれなりの対処はしなければならない。Pu酸化物以外の超ウラン元素酸化物も対処しなければならない。【解決手段】断面が三角形である平滑傾斜板(11)を当該家屋敷地境界に敷設した長さ方向に波打つ沈積収集樋(12)に接続する。当該樋の円筒(13)から超ウラン元素酸化物を地中に向かって自重落下埋没させる。【選択図】図1
TRANSURANIUM ELEMENT OXIDE REMOVING FACILITY AFTER NUCLEAR EXPLOSION
To solve the problem that even if a nuclear bomb was exploded, not 100% of nuclear material explodes and Pu not exploded is scattered as oxidation Pu, therefore, particularly oxidation Pu falling at a region slightly away from a center of explosion is not important because the amount is small, but moderate deal must be done and transuranium element oxide other than Pu oxide must be dealt with.SOLUTION: A smooth inclined plate (11) having a triangle cross section is connected to a deposition collecting water pipe (12) waving in a lengthwise direction laid in a house site border. Transuranium element oxide is buried into the ground while falling toward the ground from a cylinder (13) of the water pipe under self-weight.SELECTED DRAWING: Figure 1
【課題】核爆弾が爆発しても核物質の100%が爆発するわけではない。爆発しなかったPuは酸化Puとなって飛び散る。それも爆心地からやや離れた地域に落下してくる酸化Puは、量が少ないから大事ではないがそれなりの対処はしなければならない。Pu酸化物以外の超ウラン元素酸化物も対処しなければならない。【解決手段】断面が三角形である平滑傾斜板(11)を当該家屋敷地境界に敷設した長さ方向に波打つ沈積収集樋(12)に接続する。当該樋の円筒(13)から超ウラン元素酸化物を地中に向かって自重落下埋没させる。【選択図】図1
TRANSURANIUM ELEMENT OXIDE REMOVING FACILITY AFTER NUCLEAR EXPLOSION
核爆発後の超ウラン元素酸化物除去設備
SHIRAKAWA TOSHIHISA (Autor:in)
30.01.2020
Patent
Elektronische Ressource
Japanisch
IPC:
G21F
Schutz gegen Röntgenstrahlung, Gammastrahlung, Korpuskularstrahlung oder Teilchenbeschuss
,
PROTECTION AGAINST X-RADIATION, GAMMA RADIATION, CORPUSCULAR RADIATION OR PARTICLE BOMBARDMENT
/
E04H
Gebäude oder ähnliche Bauwerke für besondere Zwecke
,
BUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES
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