Limitless Customisation
- Design and operation adapted to any specific or complex process.
- Interconnectable glove box modules.
- Customised dimensions and shapes.
- 100% compatible with all options and equipment within Jacomex.
- Flexible and scalable design
- Designed for the integration of simple and sophisticated machinery and instrumentation.
- Standard configuration and options
- Design: 100% removable – rounded corners.
- Surface finish: satin – electropolished.
- Stainless steel quality: AISI 304L – AISI 316L.
Purification Unit
- Single Line H₂O - O₂ stand-alone purification unit.
- Leak rate <10E – 5mbar l/s.
- Closed loop circulation – adjustable flow rate 0-120m³/h.
- Automatic regeneration.
- Regeneration N₂ or Ar + 3-10% H₂.
- Purification capacity Core-12
- Options: Double-line H₂O - O₂ stand-alone purification units.
High Purity and special design adapted to any specific project, scientific, and industrial process in development or at the pilot stage.
Recommended for mass production and characterisation under a pure atmosphere, integration of equipment and machines as well as processes requiring configurable controls, automation, and safety.
Advantages:
- Flexibility – the ability to integrate equipment and machinery.
- Customised project management – information folder technical support, 3D drawings, simulation, technical and ergonomic setup approval.
- 4 large-capacity purification models available: Core-12, Core-24P, Core 24S, P(sys)-IV.
- Processing of larger volumes, severe or tricky conditions, and regenerations at widely spaced intervals.
- Purification loads are among the most quantitative on the market for an equivalent range.
- Pressure regulation without vacuum pump (Positive/Negative pressure).
- Comfortable to use – Quiet.
- Easy and accessible maintenance.
- Long service life – Low operating costs.
- Hazardous inert atmosphere: (Operating in Negative Pressure) Please reach out to us for designing a fitted security configuration (Specific equipment recommended).
Possible Applications:
- Materials physics and nanotechnologies.
- Powder processes.
- Development of all-solid-state batteries and lithium alternatives.
- Oven processes (Treatment, sintering, annealing).
- Organic electronic materials: 2nd and 3rd generation solar cells (thin films, perovskites, multijunction, DSSC.) Quantum dots, Graphene, and 2D Materials.
- Welding of large parts in titanium and alloys for the aeronautical, naval, and automotive industries.
- Research and control experiments on nuclear materials, sensitive to atmospheric components.
