FumeHood

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For some time now, there has been some interest in performing chemistry experiments and the like at RevSpace, with PeterC having amassed a decent amount of glassware and chemicals over the past 2 years. Unfortunately, whereas we have stockpiled quite a fun assortment of chemicals, we are still missing a lot of glassware, equipment and above all a safe environment to do proper chemistry in. Project FumeHood will change this.

This project aims to provide a complete environment to safely do a very wide variety of chemistry experiments by:

• Providing a safe fume cupboard, made from chemically inert materials, to do the experiments in
• Providing within the fume cupboard all the amenities you expect in a proper chemistry lab: electric outlets, gas connections, water connections, vacuum takeoff and of course air extraction through a carbon filter
• Providing dedicated, safe storage for glassware and chemicals
• Buying, as part of the project, a wide assortment of compatible glassware
• Buying a few necessary chemicals
• Buying, separately, a hot plate stirrer

The fume hood will be located in the Werkplaats, right next to the exit, facing the lounge.

Fume Hood construction

Some fume hood construction details:

• Table height: 85cm
• Cupboard inside height: min 95cm
• Width: min. 110cm (up to 140cm outside size is possible)
• Outside depth: 60-80cm
• Compartmentalized storage underneath fume cupboard, with doors
• Special mini-compartment with safe for extremely hazardous chemical storage
• Inside of fume cupboard is lined with glass fiber, possibly with white PC sheet cladding for easy cleaning
• Glass fiber is reinforced with aramid fiber bands for explosion-proofness
• Table is toughened glass, for easy cleaning and chemical resistance
• Two steel bars run along the back and top with holes tapped with M8 threads every 10cm; lab stand-style rods can screw into these
• Polycabonate sheet single slide-up door with glove holes, on spring-loaded linear guides and with simple up/down retaining latches
• Main skeleton out of wood
• Connections on the inside:
  • 2x230V IP44 PVC outlets
  • 2x barbed hose connectors for water (to water mains or circulating pump)
  • 1x barbed hose connector for bunsen gas/argon
  • 1x special (?) connector for vacuum take-off (vacuum pump can sit on the table besides the fume cupboard)
• Dedicated fuse box on the side of the fume cupboard?
• Soviet army style cylindrical carbon filter on the exhaust, followed by a 450m3/h or more fan
• Table has a 2cm+ lip to contain spills. Caulked or epoxied to glass fiber all around.
• Fire door. No automatic fire suppression.

Glassware

We will be ordering the following glassware, all 29/32:

• Rods, clips and connectors for latticebuilding
• 600mm Leibig condenser
• 400mm Vigureaux fractional distillation column
• 500mm Dimroth condenser
• Thermometer stopper
• Vacuum takeoff
• Parallel neck adapter
• 75 deg adapter (distillation setups, etc.)
• Glass stoppers
• Soxhlet extractor (+possibly joint)
• 50, 100, 250 and 500ml roundbottom flasks
• Keck clips
• A 500ml drop funnel (which we'll abuse as a separatory funnel as well)
• Waste bottles (soda lime glass) + caps
• Reaction plates and crucibles

What are we going to do with the fume hood?

Of course, we're not building a big, expensive project like this just for the fun of construction. We do intend on doing a fair amount of cool chemistry. A nonexhaustive list of the projects thought up so far:

• Making a lithium-ion battery (also involves project Smeltoven)
• Gold, palladium and platinum recovery from computer components using the cyanide pathway (also involves project Smeltoven)
• Chip decapping
• Making sodium and/or potassium metal using the new Nurdrage method
• Playing with project DIY solid-state stirrer
• Anodizing aluminum (and doing it right this time!)
• Making sodium silicide (for hydrogen production)
• Demonstration project: glowsticks (TCPO method)
• Demonstration project: copper salt crystal growth
• Demonstration project: basic electrolysis
• Demonstration project: Clock reaction
• Making aerogels
• Synthesizing organic and inorganic dyes