Task List

The following is a list of some tasks undertaken:

1. Design of liquid and gas nitrogen cooled heat exchangers to cool and condense volatile organic components (VOC's) in an incondensable gas stream.

2. Design of liquid and gas nitrogen cooled heat exchanger to cool liquids to -95°C at 150 kW.

3. Design of heat exchangers and pumping sets for helium refrigerator systems operating at approximately 2.2 K and 50 mbar.

4. Design of exhaust cryogen heat exchangers to raise cryogens to ambient temperature using electrical or steam heating to prevent vapour plumes of ice build-up.

5. Design of cryogenic current leads supplying a superconducting magnet at 3 250 Amps.

6. Design of a low loss cryostat for a superconducting magnet with a low heat load such that a 200 litre helium fill will last for one year.

7. Design and technical support in the construction of a closed loop helium refrigeration system operating at 4.5 K and 450 W.

8. Development of the sales methodology and computer aided tools to assist the selling process of VOC abatement systems.

9. Technical sales of VOC abatement systems.

10. Design, project management and commissioning of VOC abatement systems.

11. Design, project management and commissioning of petrol recovery systems.

12. Design of liquid nitrogen cooled systems to increase the output of the conventional refrigeration equipment.

13. Design and manufacture of liquid nitrogen cooled helium gas circulation systems to cool superconducting magnets.

14. Development and design of freeze drying equipment for continuous production process of pharmaceutical products.

15. Manufacture and supply of PLC (Programmable Logic Controller) systems to control a 2 K refrigeration system for superconducting magnets.

16. Cryostat design for large superconducting magnets.

17. Development of the specification for PLC (Programmable Logic Controllers) for automated cryogenic systems operating at 1.4 K

18. Development of the specification for PLC (Programmable Logic Controllers) for automated cryogenic systems operating at 150 K and 90 kW.

19. Valve sizing for two phase flow at cryogenic conditions.

20. Pipeline sizing for low heat load closed loop cryogenic systems.

21. Design of vacuum insulated cryogenic valves.

22. Chairing HAZOP (HAZard and OPerability) studies.

23. Training in cryogenic technology including cryostat design, helium refrigerators, heat exchanger design, pipeline design and valve sizing.