About: Gk7 Cryocooler   Sponge Permalink

An Entity of Type : owl:Thing, within Data Space : 134.155.108.49:8890 associated with source dataset(s)

The Gk7 Cryocooler was a popular barrel cooling device used extensively on Imperial E-Web heavy repeating blasters. It utilized a double-chamber cooling system to effectively remove excess heat from the cannon's barrel during firing. One of these chambers, the closest to the barrel, contained a small pump and de-coagulation filter for over heated coolant fluid. The other chamber acted as a heat dissipation device. Coolant flowed through this section after being pumped and filtered and the hot liquid was allowed to cool by discharging heat into a special high-temperature mesh on the outer most portion of the secondary chamber. Eventually, the entire unit had to be allowed to cool as excess heat could actually melt the absorbent mesh, causing the device to fail.

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  • Gk7 Cryocooler
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  • The Gk7 Cryocooler was a popular barrel cooling device used extensively on Imperial E-Web heavy repeating blasters. It utilized a double-chamber cooling system to effectively remove excess heat from the cannon's barrel during firing. One of these chambers, the closest to the barrel, contained a small pump and de-coagulation filter for over heated coolant fluid. The other chamber acted as a heat dissipation device. Coolant flowed through this section after being pumped and filtered and the hot liquid was allowed to cool by discharging heat into a special high-temperature mesh on the outer most portion of the secondary chamber. Eventually, the entire unit had to be allowed to cool as excess heat could actually melt the absorbent mesh, causing the device to fail.
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dbkwik:starwars/pr...iPageUsesTemplate
abstract
  • The Gk7 Cryocooler was a popular barrel cooling device used extensively on Imperial E-Web heavy repeating blasters. It utilized a double-chamber cooling system to effectively remove excess heat from the cannon's barrel during firing. One of these chambers, the closest to the barrel, contained a small pump and de-coagulation filter for over heated coolant fluid. The other chamber acted as a heat dissipation device. Coolant flowed through this section after being pumped and filtered and the hot liquid was allowed to cool by discharging heat into a special high-temperature mesh on the outer most portion of the secondary chamber. Eventually, the entire unit had to be allowed to cool as excess heat could actually melt the absorbent mesh, causing the device to fail.
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