1 / 27

Methods of Core Preservation

Methods of Core Preservation. Phil Rumford Superintendent, Gulf Coast Repository Meeting of the Curators of Marine and Lacustrine Geological Samples Estes Park, Colorado. September 2007. A Simple Method. Polyethylene Bag Oxygen Absorbing Pack Bag Sealer Advantages Cheap

ila-reeves
Download Presentation

Methods of Core Preservation

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Methods of Core Preservation Phil Rumford Superintendent, Gulf Coast Repository Meeting of the Curators of Marine and Lacustrine Geological Samples Estes Park, Colorado. September 2007

  2. A Simple Method • Polyethylene Bag • Oxygen Absorbing Pack • Bag Sealer Advantages Cheap Packs can absorb up to 200cc of O2 Retards mold, mildew, and bacterial growth Disadvantages Methods success relies on barrier qualities of bag Messy, labor intensive, difficult to store

  3. More Sophisticated • Use an aluminized bag as an effective O2 barrier • Flush bag with N2, add O2 pack, and core section • Heat seal bag

  4. Problems • Expensive • Time consuming • Difficult to know when bag is properly flushed with N2 • Requires skilled/patient user • Tried on ODP Leg 169 on sulfide rich cores, and was not successful

  5. Vacuum Sealing • No Aluminized bags • No N2 flushing or O2 packs • Simply vacuum seal the corewith a good barrier film • Small table top models (as shown)cost @ $2.5K • Works great on hard rock samples with very little moisture content • Negates the need for d-tubes, increasing available storage area

  6. Problems • Nozzle type sealers will not give an adequate seal on wet sediment cores. • The prolonged exposure to vacuum that is necessary on sediment cores may desiccate material and ruin delicate structures • Use of this method on the RV Chikyu was not successful

  7. Possible Solution • Food industry useschamber vacuum sealers to vacuum seal wet goods • Chamber sealers are expensive and not commercially available in the size needed for cores • May still have the problems of desiccation and physical damage to the cores

  8. Shrink Film Benefits • Has no effect on sample • Excellent barrier films available cheaply • Equipment readily available - cheap and reliable • Equipment easily tailored to fit budget and work-load • Negates the need for d-tubes, increasing available storage area • Allows clear view of core after wrapping

  9. Types of Equipment Available Basic systems available for under $200

  10. Manual L-Bar Sealers Cost used $2-5K

  11. 3

  12. Automatic Side Seal WrapperCost $30-70K

  13. The side seal wheel is shown below It seals the long axis of the bi-fold film

  14. The bar sealer seals and cuts the leading and trailing edges of the film. It is operated by a photocell that can detect the presence of the core liner.

  15. The in-feed conveyor and film feed mechanism

  16. Tashina feeds a core section into the machine

  17. The core section being wrapped

  18. The core section enters the heat tunnel

  19. The wrapped section

  20. D-tube storage racks at the GCR

  21. Wrapped cores without d-tubes in close packed storage

  22. Type of film used by IODP • Cryovac BDF20001 • Good O2 and water vapor barrier • Easy to use, will shrink and re-shrink • Gives a clean clear finish • Costs – about $0.12 per 1.5m section to wrap

  23. Future of Plastic Film • Rapidly evolving technical field (nanotechnology in plastics) • Driven by pharmaceutical and food industries • New types of film constantly being produced

  24. New O2 Scavenging Film from Cryovac The scavenging component of OS films is an invisible layer of the packaging. A patented UV light triggering process starts the scavenging to remove residual oxygen up to 10 - 20% faster than ever before. With faster scavenging, your products will retain their high quality longer by slowing oxidative deterioration of efficacy, integrity, reliability, potency and freshness.

More Related