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Artificial Universal Donor Blood How To Produce: First Steps.
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\nhttps://en.wikipedia.org/wiki/Red_blood_cellBlood_cell
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\nPMC5825862

the hemangioblast: dual potential to go into blood cell or vascular (veins, vessels) cells.

So if we remove the innards and replace them quickly enough with stem cell grown type O- hemoglobin of iron and oxygen atoms (using their atomic relative positions within the cell) until the cell wall is strong enough to recover by adding in the 4OFe, and renew it\u2019s splitting routine using BEL-A RBC\u2019s at millions per twenty hours per generation.
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\nPotential Hemoglobin build: Oxygen has 8 joins in valence shell. Iron has 8 in their valence shell. Ratio is 1 to 1, iron carrying the oxygen. But further study shows a much more complicated hemoglobin of alpha and beta both twice over using a surround Fe atom.
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\nhttps://quizlet.com/235585701/structure-of-hemoglobin-diagram/

O

Oxygen

15.9994amu

Fe

Iron

55.847amu

https://www.angelo.edu/faculty/kboudrea/periodic/structure_mass.htm

Each RBC has approximately 270,000,000 Hemoglobins.

https://en.wikipedia.org/wiki/Red_blood_cell
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\n~2.4 million per second produced in human adults.
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\nManufacturing:
\nOne Cell as an example multiplied by need:
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\nTwo lines:
\nLine One: Cell Wall Conveyor
\nLine Two: Iron and Oxygen Vacuum Binding
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\n1. Emptied BEL-A Cell Enters into a slight Vacuum field expanding so that the vessels are easier to interact with, opened with a beam/carbon atom blade\u2014unless the 4O4Fe Quads can be placed safely through the vessel membrane which seems feasible with further research, otherwise they are added in an additional step on the next iteration of the blade, then the RBCS gestate until healed hastened by an introduction of galactose-N acetyl-glucosamine-Galactose-N acetyl-galactosamine spikes and then taken to next stage where they can be multiplied repeatedly in their needed fluid once purity has been confirmed as safe for consumption. Approximately 20 hours post insertion for replication per I think first 50k cells with growth as fed to continuously produce O- cells.

https://bmchematol.biomedcentral.com/articles/10.1186/s12878-018-0105-4

https://en.wikipedia.org/wiki/Red_blood_cell

Read all.

Google: how big is a rbc

A typical human red blood cell has a disk diameter of approximately 6.2\u20138.2 \xb5m and a thickness at the thickest point of 2\u20132.5 \xb5m and a minimum thickness in the centre of 0.8\u20131 \xb5m, being much smaller than most other human cells.

1 \xb5m = 1,000,000 picometers. Carbon blade(s) are minimally 154 picometers in diameter. O is 120, Fe is 280, Si 220, inert gas(es) to be determined.

I have forgotten to include how to heal the cells if needed if they can\u2019t be done naturally. My idea

https://en.wikipedia.org/wiki/ABO_blood_group_system
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