ESA Document - Emits - ESA
ESA Document - Emits - ESA ESA Document - Emits - ESA
s 4.3.9.3.4 Bio-lock quarantine enclosure - SHM mounted. HMM Assessment Study Report: CDF-20(A) February 2004 page 328 of 422 The quarantine container shall be of the following size: OD (mm) ID (mm) Ext. Length (mm) Int. Length (mm) Material Unit Mass (Kg) 360 (enclosure) 350 270 250 Ti 15.4 200 (lid) 50 Ti 7.0 Table 4-34: Quarantine container characteristics Figure 4-65 shows the bio-lock principle. In summary, the sample containers are placed in the internal volume. A lid is placed on the container. An explosive charge is set off which welds the I/F between the lid and Bio-lock container wall and fractures the connection to the outer support. As stated above, this principle is based upon the Bio-Container principle developed by JPL/NASA- Ref paper 001CES-131, Dolgin, Sanok, Sevilla & Bement and is adopted for this study. Inert Gas Press. & Sensor(s) 4.3.9.4 Budgets Cat. V compliant Quarantine enclosure Explosive Sealing and Break of Contact Figure 4-65: Bio-lock principle From the above design, the following mass budget is applicable Individual canister masses: Sealed I/F Drill Head Canister 0.44 kg Drill Head Mass 0.36 kg 0.80 kg Surface (soil) Sample Mass 0.46 kg Sample Canister 0.40 kg 0.86 kg Atmospheric Sample Canister 0.40 kg
s Bio-Lock Masses: Core Samples No./Bio-Container Mass Container Mass 25.681 25.68 Core Sample Canister 0.80 10 7.975 Atmospheric Sample Canister 0.40 3 1.21 Bio-Lock Mass Surface Samples No./Bio-Container Container Mass 41.461 41.46 Atmospheric Sample Canister Mass 0.40 3 1.21 HMM Assessment Study Report: CDF-20(A) February 2004 page 329 of 422 No. of Bio- Containers 34.87 2 69.75 Surface Sample Canister Mass 0.86 10 8.61 Bio-Lock Mass Rock Samples Container Mass 36.941 36.94 No. of Bio- Containers 51.29 6 307.73 Typical Sample Mass in Bags 18.261 18.26Bio-Lock Mass MAV Transport Containers Type 1 No./Transport Container Mass Container Mass 28.811 28.81 Core Sample Bio-Container 34.87 0 Surface Sample Bio-Container 51.292 102.58 No. of Bio- Containers 55.20 2 110.41 Rock Sample Bio-Container 55.201 55.20 Trans. Cont. Mass Type 2 No./Transport Container Mass Container Mass 28.801 28.80 Core Sample Bio-Container 34.872 69.75 Surface Sample Bio-Container 51.292 102.57 No. of Transport Containers 186.59 2 373.18 Rock Sample Bio-Container 55.200 0 Trans. Cont. Mass No. of Transport Containers 201.13 1 201.13
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s<br />
Bio-Lock Masses:<br />
Core Samples No./Bio-Container Mass<br />
Container Mass 25.681 25.68<br />
Core Sample Canister 0.80 10 7.975<br />
Atmospheric Sample Canister 0.40 3 1.21 Bio-Lock Mass<br />
Surface Samples No./Bio-Container<br />
Container Mass 41.461 41.46<br />
Atmospheric Sample Canister Mass 0.40 3 1.21<br />
HMM<br />
Assessment Study<br />
Report: CDF-20(A)<br />
February 2004<br />
page 329 of 422<br />
No. of Bio-<br />
Containers<br />
34.87 2<br />
69.75<br />
Surface Sample Canister Mass 0.86 10 8.61 Bio-Lock Mass<br />
Rock Samples<br />
Container Mass 36.941 36.94<br />
No. of Bio-<br />
Containers<br />
51.29 6<br />
307.73<br />
Typical Sample Mass in Bags 18.261 18.26Bio-Lock Mass<br />
MAV Transport Containers<br />
Type 1<br />
No./Transport<br />
Container Mass<br />
Container Mass 28.811 28.81<br />
Core Sample Bio-Container 34.87 0<br />
Surface Sample Bio-Container 51.292 102.58<br />
No. of Bio-<br />
Containers<br />
55.20 2<br />
110.41<br />
Rock Sample Bio-Container 55.201 55.20 Trans. Cont. Mass<br />
Type 2<br />
No./Transport<br />
Container Mass<br />
Container Mass 28.801 28.80<br />
Core Sample Bio-Container 34.872 69.75<br />
Surface Sample Bio-Container 51.292 102.57<br />
No. of<br />
Transport<br />
Containers<br />
186.59 2<br />
373.18<br />
Rock Sample Bio-Container 55.200 0 Trans. Cont. Mass<br />
No. of<br />
Transport<br />
Containers<br />
201.13 1<br />
201.13