Thiele tube

Drawing of a Thiele tube with red arrows showing convection current

A photograph of a Thiele tube. The oil level is a little low now to compensate for expansion when heating commences.

The Thiele tube, named after the German chemist Johannes Thiele, is a laboratory glassware designed to contain and heat an oil bath. Such a setup is commonly used in the determination of the melting point of a substance. The apparatus itself resembles a glass test tube with an attached handle.

Operation

Oil is poured into the tube, and then the "handle" is heated, either by a small flame or some other heating element. The shape of the Thiele tube allows for formation of convection currents in the oil when it is heated. These currents maintain a fairly uniform temperature distribution throughout the oil in the tube. The side arm of the tube is designed to generate these convection currents and thus transfer the heat from the flame evenly and rapidly throughout the heating oil. The sample, packed in a capillary tube, is attached to the thermometer, and held by means of a rubber band or a small slice of rubber tubing. The Thiele tube is usually heated using a microburner with a small flame.

Melting point determination

A sample in a sealed capillary, attached to a thermometer with a rubber band, is immersed in the tube. Heating is commenced, and the temperature ranges at which the sample melts can then be observed. During heating, the point at which melting is observed and the temperature constant is the melting point of the sample.^[1] A more modern method uses dedicated equipment, known as a melting point apparatus. A slow heating rate at the melting point is needed in order to get an accurate measurement. Record the temperature on the thermometer when the sample starts to melt and record the temperature again when all of the sample has melted (this gives you the melting point range, which is what is usually quoted in chemical literature).

Boiling point determination

A sample in a fusion tube is attached to a thermometer with a rubber band, and immersed in the tube. A sealed capillary, open end pointing down, is placed in the fusion tube. The Thiele tube is heated; dissolved gases evolve from the sample first. Once the sample starts to boil, heating is stopped, and the temperature starts to fall. The temperature at which the liquid sample is sucked into the sealed capillary is the boiling point of the sample.^[2]

References

↑ "Melting Point Determination" (PDF). University of Calgary.
↑ "Boiling Point Determination" (PDF). University of Calgary.

Laboratory equipment

General

Heaters Dryers	Alcohol burner Bunsen burner Desiccator Heating mantle Hot plate Lab oven Kiln Meker-Fisher burner Striker Teclu burner Water bath Vacuum dry box

Mixers Shakers	Chemostat Homogenizer Liquid whistle Magnetic stirrer Mortar and pestle Shaker Sonicator Static mixer Stirring rod Vortex mixer Wash bottle

Stands Clamps Holders	Beaker clamp Clamp holder Concentric ring tripod Burette clamp Extension clamp Flask clamp Funnel support Iron ring Pinch clamp Retort stand Screw clamp Test tube holder Test tube rack Wire gauze Lab drying rack

Containers Storage	Agar plate Cryogenic storage dewar Incubator Laminar flow cabinet Microtiter plate Petri dish Picotiter plate Refrigerator Weighing boat Weighing dish

Other items	Aspirator Autoclave Balance brush Cork borer Crucible Filter paper File Forceps Centrifuge Microscope Pipeclay triangle Spectrophotometer Splint Stopper Scoopula Spatula Test tube brush Wire brush Inoculation needle inoculation loop

Glassware

Apparatus	Dean-Stark Soxhlet extractor Kipp's

Bottles	Boston round Pycnometer

Condensers	Cold finger Liebig

Dishes	Evaporating Petri Watch glass

Flasks	Büchner Vacuum (Dewar) Erlenmeyer Fernbach Fleaker Florence Retort Round-bottom Schlenk Volumetric

Funnels	Büchner Dropping Separatory

Measuring devices	Burette Conical measure Cuvette Eudiometer Graduated cylinder Ostwald viscometer Pipette Pipette (dropper)

Tubes	Boiling Cragie Ignition Nuclear magnetic resonance (NMR) Stirring rod Test Thiele Thistle

Other items	Beaker Gas syringe Vial

Analytical chemistry

Compositional	AutoAnalyzer CHN analyzer Colorimeter Inductively coupled plasma (ICP) device Gas chromatograph (GC) Liquid Chromatograph (LC) Mass spectrometer (MS) pH indicator pH meter

Microscopy	Scanning electron microscope (SEM) Transmission electron microscope (TEM)

Thermochemistry	Calorimeter differential scanning Melting point apparatus Thermometer Thermogravimetric analyzer (TGA)

Other items	Analytical balance Colony counter Spiral plater Nuclear magnetic resonance (NMR) instrument Plate reader

Electronics

Ammeter Current source Function generator Galvanostat Multimeter Network analyzer Oscilloscope Pulse generator Potentiostat Spectrum analyzer Time-domain reflectometer Voltage source Voltmeter

Safety

Personal protective
equipment (PPE)

Lab coat Face shield Respirator Rubber apron Safety shower

Eye and hand	Acid-resistant gloves Eyewash station Glove box Medical gloves Nitrile gloves Safety glasses Safety goggles

Other items

Instruments used in medical laboratories

This article is issued from Wikipedia - version of the 5/11/2015. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.