I love Yellowcake

[English Channel Union]

Work will continue at all three plants, first they will take the U₃O₈ "Yellowcake" and dissolve it into Nitric Acid, this would result in a Uranyl Nitrate UO₂(NO₃)₂. This step is followed by extracting pure uranyl nitrate by solvent extraction with a treatment of ammonia to produce Ammonium Diuranate (NH₄)₂U₂O₇, followed by a reduction by hydrogen, producing UO₂, this is converted with Hydrofluoric Acid to make Uranium Tetrafluoride UF₄. Finally, through an Oxidation process, they will produce the UF₆ Uranium Hexafluoride which will be used in the Enrichment Process to obtain U²³⁵.

The plant will continue to cycle the completed UF₆ through the Gas Centrifuge, and the UF₆ will be placed into a cylinder amongst others that will rotate with a heat applied to the cylinder. Through the centrifugal force the heavier gas molecules containing U²³⁸ will move toward the outside of the cylinder while the lighter gasses enriched with U²³⁵ will collect closer to the center, of the addition of Heat will also cause some of the Heavier gasses to sink while the Lighter U²³⁵ will rise to the top allowing for easier extraction, once completed teams will extract the U²³⁵ from the center while the waste U²³⁸ is sent for processing to be used in Nuclear Facilities to create Pu²³⁹.

Blind River:
Order 2; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 70%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 50%
Candle Lake:
Order 2; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 90%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 80%
Port Hope:
Order 2; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 90%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 80%
Cobourg: NEW
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 40%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 20%
Little Black River: NEW
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 40%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 20%
Silver Harbour: NEW
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 40%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 20%

The Pickering Nuclear Station will continue refining the specified amount of Pu²³⁹ by placing Natural Uranium into its reactor core and allowing the neutrons to interact, once a U²³⁵ atom is fissioned it will release 3 neutrons which can be absorbed by U²³⁸ to produce Pu²³⁹. Reactor rods will be changed frequently to extract the 3.5% WG Pu²³⁹.

Pickering;
Fifth Order of 40kt/TNT of Pu²³⁹
Fission Process U²³⁵ > U²³⁸ > Pu²³⁹ = 80%

Current Stockpile;
U²³⁵ Enrichment Levels;
90-95% = 50kt
85-90% = 150kt

Pu²³⁹ Enrichment Levels;
3.5% = 160kt

[English Channel Union]

Work will continue at all three plants, first they will take the U₃O₈ "Yellowcake" and dissolve it into Nitric Acid, this would result in a Uranyl Nitrate UO₂(NO₃)₂. This step is followed by extracting pure uranyl nitrate by solvent extraction with a treatment of ammonia to produce Ammonium Diuranate (NH₄)₂U₂O₇, followed by a reduction by hydrogen, producing UO₂, this is converted with Hydrofluoric Acid to make Uranium Tetrafluoride UF₄. Finally, through an Oxidation process, they will produce the UF₆ Uranium Hexafluoride which will be used in the Enrichment Process to obtain U²³⁵.

The plant will continue to cycle the completed UF₆ through the Gas Centrifuge, and the UF₆ will be placed into a cylinder amongst others that will rotate with a heat applied to the cylinder. Through the centrifugal force the heavier gas molecules containing U²³⁸ will move toward the outside of the cylinder while the lighter gasses enriched with U²³⁵ will collect closer to the center, of the addition of Heat will also cause some of the Heavier gasses to sink while the Lighter U²³⁵ will rise to the top allowing for easier extraction, once completed teams will extract the U²³⁵ from the center while the waste U²³⁸ is sent for processing to be used in Nuclear Facilities to create Pu²³⁹.

Blind River:
Order 2; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 80%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 60%
Candle Lake:
Order 2; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 90%
Port Hope:
Order 2; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 90%
Cobourg:
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 60%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 40%
Little Black River:
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 60%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 40%
Silver Harbour:
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 60%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 40%
Red Rock: NEW
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 20%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 0%
Victoria Beach NEW
Order 1; [=75]An Additional Order of 25kt/TNT of 85-90% U²³⁵[/size]
U₃O₈ > UF₆ = 20%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 0%
Albert Beach NEW
Order 1; [=75]An Additional Order of 25kt/TNT of 85-90% U²³⁵[/size]
U₃O₈ > UF₆ = 20%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 0%

The Pickering Nuclear Station will continue refining the specified amount of Pu²³⁹ by placing Natural Uranium into its reactor core and allowing the neutrons to interact, once a U²³⁵ atom is fissioned it will release 3 neutrons which can be absorbed by U²³⁸ to produce Pu²³⁹. Reactor rods will be changed frequently to extract the 3.5% WG Pu²³⁹.

Pickering;
Fifth Order of 40kt/TNT of Pu²³⁹
Fission Process U²³⁵ > U²³⁸ > Pu²³⁹ = 100%

Current Stockpile;
U²³⁵ Enrichment Levels;
90-95% = 50kt
85-90% = 150kt

Pu²³⁹ Enrichment Levels;
3.5% = 200kt (+40)

[English Channel Union]

Work will continue at all three plants, first they will take the U₃O₈ "Yellowcake" and dissolve it into Nitric Acid, this would result in a Uranyl Nitrate UO₂(NO₃)₂. This step is followed by extracting pure uranyl nitrate by solvent extraction with a treatment of ammonia to produce Ammonium Diuranate (NH₄)₂U₂O₇, followed by a reduction by hydrogen, producing UO₂, this is converted with Hydrofluoric Acid to make Uranium Tetrafluoride UF₄. Finally, through an Oxidation process, they will produce the UF₆ Uranium Hexafluoride which will be used in the Enrichment Process to obtain U²³⁵.

The plant will continue to cycle the completed UF₆ through the Gas Centrifuge, and the UF₆ will be placed into a cylinder amongst others that will rotate with a heat applied to the cylinder. Through the centrifugal force the heavier gas molecules containing U²³⁸ will move toward the outside of the cylinder while the lighter gasses enriched with U²³⁵ will collect closer to the center, of the addition of Heat will also cause some of the Heavier gasses to sink while the Lighter U²³⁵ will rise to the top allowing for easier extraction, once completed teams will extract the U²³⁵ from the center while the waste U²³⁸ is sent for processing to be used in Nuclear Facilities to create Pu²³⁹.

Blind River:
Order 2; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 80%
Candle Lake:
Order 2; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 100%
Order 1; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 20%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 0%
Port Hope:
Order 2; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 100%
Order 2; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 20%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 0%
Cobourg:
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 80%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 60%
Little Black River:
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 80%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 60%
Silver Harbour:
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 80%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 60%
Red Rock: NEW
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 40%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 20%
Victoria Beach NEW
Order 1; [=75]An Additional Order of 25kt/TNT of 85-90% U²³⁵[/size]
U₃O₈ > UF₆ = 40%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 20%
Albert Beach NEW
Order 1; [=75]An Additional Order of 25kt/TNT of 85-90% U²³⁵[/size]
U₃O₈ > UF₆ = 40%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 20%

The Pickering Nuclear Station will continue refining the specified amount of Pu²³⁹ by placing Natural Uranium into its reactor core and allowing the neutrons to interact, once a U²³⁵ atom is fissioned it will release 3 neutrons which can be absorbed by U²³⁸ to produce Pu²³⁹. Reactor rods will be changed frequently to extract the 3.5% WG Pu²³⁹.

Pickering;
Sixth Order of 40kt/TNT of Pu²³⁹
Fission Process U²³⁵ > U²³⁸ > Pu²³⁹ = 20%

Current Stockpile;
U²³⁵ Enrichment Levels;
90-95% = 50kt
85-90% = 200kt (+50)

Pu²³⁹ Enrichment Levels;
3.5% = 200kt

[English Channel Union]

Work will continue at all three plants, first they will take the U₃O₈ "Yellowcake" and dissolve it into Nitric Acid, this would result in a Uranyl Nitrate UO₂(NO₃)₂. This step is followed by extracting pure uranyl nitrate by solvent extraction with a treatment of ammonia to produce Ammonium Diuranate (NH₄)₂U₂O₇, followed by a reduction by hydrogen, producing UO₂, this is converted with Hydrofluoric Acid to make Uranium Tetrafluoride UF₄. Finally, through an Oxidation process, they will produce the UF₆ Uranium Hexafluoride which will be used in the Enrichment Process to obtain U²³⁵.

The plant will continue to cycle the completed UF₆ through the Gas Centrifuge, and the UF₆ will be placed into a cylinder amongst others that will rotate with a heat applied to the cylinder. Through the centrifugal force the heavier gas molecules containing U²³⁸ will move toward the outside of the cylinder while the lighter gasses enriched with U²³⁵ will collect closer to the center, of the addition of Heat will also cause some of the Heavier gasses to sink while the Lighter U²³⁵ will rise to the top allowing for easier extraction, once completed teams will extract the U²³⁵ from the center while the waste U²³⁸ is sent for processing to be used in Nuclear Facilities to create Pu²³⁹.

Blind River:
Order 2; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 80%
Candle Lake:
Order 2; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 100%
Order 1; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 20%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 0%
Port Hope:
Order 2; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 100%
Order 2; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 20%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 0%
Cobourg:
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 80%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 60%
Little Black River:
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 80%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 60%
Silver Harbour:
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 80%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 60%
Red Rock: NEW
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 40%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 20%
Victoria Beach NEW
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 40%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 20%
Albert Beach NEW
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 40%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 20%

The Pickering Nuclear Station will continue refining the specified amount of Pu²³⁹ by placing Natural Uranium into its reactor core and allowing the neutrons to interact, once a U²³⁵ atom is fissioned it will release 3 neutrons which can be absorbed by U²³⁸ to produce Pu²³⁹. Reactor rods will be changed frequently to extract the 3.5% WG Pu²³⁹.

Pickering;
Sixth Order of 40kt/TNT of Pu²³⁹
Fission Process U²³⁵ > U²³⁸ > Pu²³⁹ = 20%

Current Stockpile;
U²³⁵ Enrichment Levels;
90-95% = 50kt
85-90% = 200kt (+50)

Pu²³⁹ Enrichment Levels;
3.5% = 200kt

[English Channel Union]

Work will continue at all three plants, first they will take the U₃O₈ "Yellowcake" and dissolve it into Nitric Acid, this would result in a Uranyl Nitrate UO₂(NO₃)₂. This step is followed by extracting pure uranyl nitrate by solvent extraction with a treatment of ammonia to produce Ammonium Diuranate (NH₄)₂U₂O₇, followed by a reduction by hydrogen, producing UO₂, this is converted with Hydrofluoric Acid to make Uranium Tetrafluoride UF₄. Finally, through an Oxidation process, they will produce the UF₆ Uranium Hexafluoride which will be used in the Enrichment Process to obtain U²³⁵.

The plant will continue to cycle the completed UF₆ through the Gas Centrifuge, and the UF₆ will be placed into a cylinder amongst others that will rotate with a heat applied to the cylinder. Through the centrifugal force the heavier gas molecules containing U²³⁸ will move toward the outside of the cylinder while the lighter gasses enriched with U²³⁵ will collect closer to the center, of the addition of Heat will also cause some of the Heavier gasses to sink while the Lighter U²³⁵ will rise to the top allowing for easier extraction, once completed teams will extract the U²³⁵ from the center while the waste U²³⁸ is sent for processing to be used in Nuclear Facilities to create Pu²³⁹.

Blind River:
Order 2; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 100%
Order 3; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 20%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 0%
Candle Lake:
Order 1; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 40%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 20%
Port Hope:
Order 2; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 40%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 20%
Cobourg:
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 80%
Little Black River:
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 80%
Silver Harbour:
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 80%
Red Rock: NEW
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 60%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 40%
Victoria Beach NEW
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 60%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 40%
Albert Beach NEW
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 60%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 40%

The Pickering Nuclear Station will continue refining the specified amount of Pu²³⁹ by placing Natural Uranium into its reactor core and allowing the neutrons to interact, once a U²³⁵ atom is fissioned it will release 3 neutrons which can be absorbed by U²³⁸ to produce Pu²³⁹. Reactor rods will be changed frequently to extract the 3.5% WG Pu²³⁹.

Pickering;
Sixth Order of 40kt/TNT of Pu²³⁹
Fission Process U²³⁵ > U²³⁸ > Pu²³⁹ = 40%

Current Stockpile;
U²³⁵ Enrichment Levels;
90-95% = 75kt (+25)
85-90% = 200kt

Pu²³⁹ Enrichment Levels;
3.5% = 200kt

[English Channel Union]

Work will continue at all three plants, first they will take the U₃O₈ "Yellowcake" and dissolve it into Nitric Acid, this would result in a Uranyl Nitrate UO₂(NO₃)₂. This step is followed by extracting pure uranyl nitrate by solvent extraction with a treatment of ammonia to produce Ammonium Diuranate (NH₄)₂U₂O₇, followed by a reduction by hydrogen, producing UO₂, this is converted with Hydrofluoric Acid to make Uranium Tetrafluoride UF₄. Finally, through an Oxidation process, they will produce the UF₆ Uranium Hexafluoride which will be used in the Enrichment Process to obtain U²³⁵.

The plant will continue to cycle the completed UF₆ through the Gas Centrifuge, and the UF₆ will be placed into a cylinder amongst others that will rotate with a heat applied to the cylinder. Through the centrifugal force the heavier gas molecules containing U²³⁸ will move toward the outside of the cylinder while the lighter gasses enriched with U²³⁵ will collect closer to the center, of the addition of Heat will also cause some of the Heavier gasses to sink while the Lighter U²³⁵ will rise to the top allowing for easier extraction, once completed teams will extract the U²³⁵ from the center while the waste U²³⁸ is sent for processing to be used in Nuclear Facilities to create Pu²³⁹.

Blind River:
Order 3; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 40%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 20%
Candle Lake:
Order 1; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 60%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 40%
Port Hope:
Order 2; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 60%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 40%
Cobourg:
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 100%
Order 2; An Additional Order of 50kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 40%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 0%
Little Black River:
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 100%
Order 2; An Additional Order of 50kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 40%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 0%
Silver Harbour:
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 100%
Order 2; An Additional Order of 50kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 40%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 0%
Red Rock: NEW
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 80%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 60%
Victoria Beach NEW
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 80%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 60%
Albert Beach NEW
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 80%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 60%

The Pickering Nuclear Station will continue refining the specified amount of Pu²³⁹ by placing Natural Uranium into its reactor core and allowing the neutrons to interact, once a U²³⁵ atom is fissioned it will release 3 neutrons which can be absorbed by U²³⁸ to produce Pu²³⁹. Reactor rods will be changed frequently to extract the 3.5% WG Pu²³⁹.

Pickering;
Sixth Order of 40kt/TNT of Pu²³⁹
Fission Process U²³⁵ > U²³⁸ > Pu²³⁹ = 60%

Current Stockpile;
U²³⁵ Enrichment Levels;
90-95% = 75kt (+0)
85-90% = 275kt (+75)

Pu²³⁹ Enrichment Levels;
3.5% = 200kt

[English Channel Union]

Work will continue at all three plants, first they will take the U₃O₈ "Yellowcake" and dissolve it into Nitric Acid, this would result in a Uranyl Nitrate UO₂(NO₃)₂. This step is followed by extracting pure uranyl nitrate by solvent extraction with a treatment of ammonia to produce Ammonium Diuranate (NH₄)₂U₂O₇, followed by a reduction by hydrogen, producing UO₂, this is converted with Hydrofluoric Acid to make Uranium Tetrafluoride UF₄. Finally, through an Oxidation process, they will produce the UF₆ Uranium Hexafluoride which will be used in the Enrichment Process to obtain U²³⁵.

The plant will continue to cycle the completed UF₆ through the Gas Centrifuge, and the UF₆ will be placed into a cylinder amongst others that will rotate with a heat applied to the cylinder. Through the centrifugal force the heavier gas molecules containing U²³⁸ will move toward the outside of the cylinder while the lighter gasses enriched with U²³⁵ will collect closer to the center, of the addition of Heat will also cause some of the Heavier gasses to sink while the Lighter U²³⁵ will rise to the top allowing for easier extraction, once completed teams will extract the U²³⁵ from the center while the waste U²³⁸ is sent for processing to be used in Nuclear Facilities to create Pu²³⁹.

Blind River:
Order 3; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 60%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 40%
Candle Lake:
Order 1; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 80%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 60%
Port Hope:
Order 2; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 80%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 60%
Cobourg:
Order 2; An Additional Order of 50kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 60%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 40%
Little Black River:
Order 2; An Additional Order of 50kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 60%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 40%
Silver Harbour:
Order 2; An Additional Order of 50kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 60%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 40%
Red Rock: NEW
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 80%
Victoria Beach NEW
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 80%
Albert Beach NEW
Order 1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 80%

The Pickering Nuclear Station will continue refining the specified amount of Pu²³⁹ by placing Natural Uranium into its reactor core and allowing the neutrons to interact, once a U²³⁵ atom is fissioned it will release 3 neutrons which can be absorbed by U²³⁸ to produce Pu²³⁹. Reactor rods will be changed frequently to extract the 3.5% WG Pu²³⁹.

Pickering;
Sixth Order of 40kt/TNT of Pu²³⁹
Fission Process U²³⁵ > U²³⁸ > Pu²³⁹ = 80%

Current Stockpile;
U²³⁵ Enrichment Levels;
90-95% = 75kt (+0)
85-90% = 275kt (+0)

Pu²³⁹ Enrichment Levels;
3.5% = 200kt

[English Channel Union]

Work will continue at all three plants, first they will take the U₃O₈ "Yellowcake" and dissolve it into Nitric Acid, this would result in a Uranyl Nitrate UO₂(NO₃)₂. This step is followed by extracting pure uranyl nitrate by solvent extraction with a treatment of ammonia to produce Ammonium Diuranate (NH₄)₂U₂O₇, followed by a reduction by hydrogen, producing UO₂, this is converted with Hydrofluoric Acid to make Uranium Tetrafluoride UF₄. Finally, through an Oxidation process, they will produce the UF₆ Uranium Hexafluoride which will be used in the Enrichment Process to obtain U²³⁵.

The plant will continue to cycle the completed UF₆ through the Gas Centrifuge, and the UF₆ will be placed into a cylinder amongst others that will rotate with a heat applied to the cylinder. Through the centrifugal force the heavier gas molecules containing U²³⁸ will move toward the outside of the cylinder while the lighter gasses enriched with U²³⁵ will collect closer to the center, of the addition of Heat will also cause some of the Heavier gasses to sink while the Lighter U²³⁵ will rise to the top allowing for easier extraction, once completed teams will extract the U²³⁵ from the center while the waste U²³⁸ is sent for processing to be used in Nuclear Facilities to create Pu²³⁹.

Blind River:
BL3; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 80%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 60%
Candle Lake:
CL1; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 80%
Port Hope:
PH1; An Additional Order of 25kt/TNT of 90-95% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 80%
Cobourg:
CB1; An Additional Order of 50kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 60%
CB22; An Additional Order of 50kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 40%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 20%
Little Black River:
LBR1; An Additional Order of 50kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 80%
Silver Harbour:
SH2; An Additional Order of 50kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 80%
Red Rock: NEW
RR1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 100%
Victoria Beach NEW
VB1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 100%
Albert Beach NEW
AB1; An Additional Order of 25kt/TNT of 85-90% U²³⁵
U₃O₈ > UF₆ = 100%
UF₆ > Gas Extraction Process > 90% U²³⁵ = 100%

The Pickering Nuclear Station will continue refining the specified amount of Pu²³⁹ by placing Natural Uranium into its reactor core and allowing the neutrons to interact, once a U²³⁵ atom is fissioned it will release 3 neutrons which can be absorbed by U²³⁸ to produce Pu²³⁹. Reactor rods will be changed frequently to extract the 3.5% WG Pu²³⁹.

Pickering;
Sixth Order of 40kt/TNT of Pu²³⁹
Fission Process U²³⁵ > U²³⁸ > Pu²³⁹ = 100%

Current Stockpile;
U²³⁵ Enrichment Levels;
90-95% = 75kt (+0)
85-90% = 350kt (+75)

Pu²³⁹ Enrichment Levels;
3.5% = 240kt (+40)