The Funded Project at Bournemouth University |
Further literature has been included here and divided into the three sections this research programme is particularly involved with. Its main function is to try and depict the interrelation of environmental design of products to two other well established engineering disciplines.
1. Concurrent Engineering. Automation, Tools and Techniques / Edited by Kusiak, A., ed. A. Kusiak. 1993: John Wiley & Sons, Inc.
2. Design for X / Edited by Huang, G., ed. G.Q. Huang. 1996: Chapman & Hall.
3. Alting, L., Designing for a lifetime. Manufacturing Breakthrough, 1993, May/June, pp 29-33.
4. Alting, L. and Jorgensen, J., The life cycle concept as a basis for sustainable industrial production. Annals of the CIRP, 1993, 42(1), pp 163-167.
5. Alting, L. and Legarth, J.B., Life cycle engineering and design. Annals of the CIRP, 1995, 44(2), pp 569-580.
6. Alting, L., Sustainable industrial production. Environmental issues in product development, in Proceedings of the IFIP WG5.3 international conference on life cycle modeling for innovative products and processes, H. Jansen and F.-L. Krause, Eds., Chapman & Hall: Berlin, 1995, pp 31-42.
7. Alting, L, Environmental assessment of industrial products. Annals of the CIRP, 1995, 44(2), pp 533-534.
8. Alting, L., Hauschild, M. and Wenzel, H., Elements in a new sustainable industrial culture environmental assessment in product development, in Managing Enterprises - Stakeholders, Engineering, Logistics and Achievement, T. Wright, M. Rudolph, V. Hanna, D. Gillingwater and N. Burns, Eds., Mechanical Engineering Publications Limited: Loughborough, 1997, pp 523-531.
9. Anderl, R. and Katzenmaier, J., Environmentally sound computer aided design, in Proceedings of the IFIP WG5.3 international conference on life cycle modeling for innovative products and processes, H. Jansen and F.-L. Krause, Eds., Chapman & Hall: Berlin, 1995, pp 395-407.
10. Ashby, M.F., Materials selection in conceptual design. Materials Science and Technology, 1989, 5, pp 517-525.
11. Birkhofer, H. and Schott, H., Development of environmentally friendly products, methods, material and instruments, in Proceedings of the IFIP WG5.3 international conference on life cycle modeling for innovative products and processes, H. Jansen and F.-L. Krause, Eds., Chapman & Hall: Berlin, 1995, pp 432-443.
12. Borg, J. and MacCallum, K.J., A life-cycle consequences model approach to the design for multi-X of components, in International Conference on Engineering Design, ICED'97: Tampere, 1997, pp 647-652.
13. Borg, J.C., Yan, X.T. and Juster, N.P., A KICAD tool for the pro-active exploration support to 'design synthesis for multi-X', in Third IFIP WG 5.2, Workshop on Knowledge Intensive CAD (KIC-3): Tokyo, 1998, pp 274-295.
14. Borg, J.C. and Yan, X.T., Design decision consequences: key to 'Design for multi-X' support, in Proceedings of the Second International Symposium on Tools and Methods for Concurrent Engineering, TMCE'98: Manchester, 1998, pp 169-184.
15. Charles, J.A., Interaction of design, manufacturing method, and material selection. Materials Science and Technology, 1989, 5, pp 509-516.
16. Dannheim, F., Schott, H. and Birkhofer, H., The significance of the products usage phase for design for the environment, in International Conference on Engineering Design, ICED 97: Tampere, 1997, pp 641-646.
17. de Andrade, R.S., Preliminary evaluation of needs in the design process, in International Conference on Engineering Design - ICED 91: Zurich, 1991, pp 717-720.
18. Deng, Z., Architecture consideration for sustainable manufacturing processes re-engineering, in Proceedings of the IFIP WG5.3 international conference on life cycle modeling for innovative products and processes, H. Jansen and F.-L. Krause, Eds., Chapman & Hall: Berlin, 1995, pp 349-355.
19. Di Marco, P., Eubanks, C.F. and Ishii, K., Compatibility analysis of product design for recyclability and reuse, in Computers in Engineering, 1994, pp 105-112.
20. Duffy, A.H.B. and Andreasen, M.M., Enhancing the evolution of design science, in International Conference on Engineering Design, ICED'95: Praha, 1995.
21. Duffy, A.H.B. and O'Donnell, F.J., A design research approach, in Workshop on Research Methods in AI in Design, AID'98: Lisbon, 1998.
22. ElMaraghy, H.A., Evolution and future perspectives of CAPP. Annals of the CIRP, 1993, 42(2), pp 739-751.
23. Energy, Government Task Force on the Industrial Use of, Economic instruments and the business use of energy: a consultancy paper, 1998.
24. Eversheim, W., Böhlke, U.H. and Kölscheid, W., Life cycle modeling as an approach for design for X, in Proceedings of the IFIP WG5.3 international conference on life cycle modeling for innovative products and processes, H. Jansen and F.-L. Krause, Eds., Chapman & Hall: Berlin, 1995, pp 71-79.
25. Fu, T.-T. and Cebon, D., Evaluating designs through life costing, in International Conference on Engineering Design, ICED 97: Tampere, 1997, pp 525-528.
26. Graedel, T.E., Allenby, B.R. and Comrie, P.R., Matrix approaches to abridged life cycle assessment. Environmental Science and Technology, 1995, 29(3), pp 134a-139a.
27. Guinée, J.B., Udo de Haes, H.A. and Huppes, G., Quantitative life cycle assessment of products 1: Goal definition and inventory. J. Cleaner Production, 1993, 1(1), pp 3-13.
28. Guinée, J.B., Heijungs, R., Udo de Haes, H.A. and Huppes, G., Quantitative life cycle assessment of products 2: Classification, valuation and improvement analysis. J. Cleaner Production, 1993, 1(2), pp 81-91.
29. Hanssen, O.J., Preventive environmental strategies for product systems. J. of Cleaner Production, 1995, 3(4), pp 181-187.
30. Hauschild, M. and Wenzel, H., Environmental Assessment of Products. Vol. 2. 1998: Chapman and Hall.
31. Hiraoka, H. and Saito, D., Model based approach to life cycle simulation of manufacturing facilities, in Proceedings of the IFIP WG5.3 international conference on life cycle modeling for innovative products and processes, H. Jansen and F.-L. Krause, Eds., Chapman & Hall: Berlin, 1995, pp 408-419.
32. Holloway, L, Clegg, D., Tranter, I. and Cockerham, G., Incorporating environmental principles into the design process. Materials and Design, 1994, 15(5), pp 259-267.
33. Hubka, V. and Eder, W.E., Theory of Technical Systems. 1988: Springer-Verlag.
34. Hunt, R.G., Sellers, J.D. and franklin, W.E., Resource and environmental profile analysis: A life cycle environmental assessment for products and procedures. Environmental Impact Assessment Review, 1992, 12, pp 245-269.
35. Ishii, K., Life-cycle engineering design. Transactions of the ASME, 1995, 117(June), pp 42-47.
36. Johnson, E.P., Banks, R.E. and Sharratt, P.N., Automobile air conditioning: A case study of CFC replacements. The International Journal of Life Cycle Assessment, 1998, 3(2), pp 75-79.
37. Jovane, F., Alting, L., Armillotta, A., Eversheim, W., Feldmann, A., Seliger, G. and Roth, N., A key issue in product life cycle: Disassembly. Annals of the CIRP, 1993, 42(2), pp 651-658.
38. Jönson, G., LCA - A Tool for Measuring Environmental Performance. 1996: Pira International.
39. Kaniut, C. and Kohler, H., Life cycle assessment (LCA) - A supporting tool for vehicle design?, in Proceedings of the IFIP WG5.3 international conference on life cycle modeling for innovative products and processes, H. Jansen and F.-L. Krause, Eds., Chapman & Hall: Berlin, 1998, pp 444-458.
40. Keoleian, G.A. and Menerey, D., Sustainable development by design: Review of life cycle design and related approaches. Air & Waste, 1994, 44, pp 645-668.
41. Knight, W.A., Software tools to evaluate cost benefits and environmental impact of designing for disassembly, recycling and the environment, in Technical papers, regional technical conference of the Society of Plastic Engineers, 1996, pp 27-38.
42. Krause, F.-L. and Kind, Chr., Potentials of information technology for life cycle oriented product and process development, in Proceedings of the IFIP WG5.3 international conference on life cycle modeling for innovative products and processes, H. Jansen and F.-L. Krause, Eds., Chapman & Hall: Berlin, 1995, pp 14-27.
43. Legarth, J.B. and Alting, L., Demands on industry in sustainable use of metal resources. Manufacturing Science and Engineering, 1995, MED-Vol.2.2/MH-Vol.3.2, pp 883-894.
44. Lenau, T. and Alting, L., The missing element in design for manufacture. Annals of the CIRP, 1996, 45(1), pp 105-108.
45. McAloone, T.C. and Holloway, L.P., From product designer to environmentally conscious product designer, in Applied Concurrent Engineering Conference: Seattle, 1996.
46. McAloone, T.C., Integration of DFE tools with product development, in Material World II teN Conference & AGM: Birmingham, 1996.
47. McAloone, T.C. and Evans, S., Integrating environmental decisions into the design process, in CIRP; Third International Seminar on Life Cycle Engineering, Eco-Performance, 1996.
48. McAloone, T.C. and Evans, S., Integrating environmental decisions into design process: Encouraging a move towards sustainable product development, in Conference of the greening of Industry Network - Global Restructuring: A Place for Ecology: Heidelberg, 1996.
49. Mizuki, C., Sandborn, P.A. and Pitts, G., Design for environment - A survey of current practices and tools, in IEEE International Symposium on Electronics and the Environment: Dallas, 1996.
50. Mueller, K.G., Court, A.W. and Besant, C.B., A strategy for energy life cycle design, in Design Reuse: Collected papers from the Engineering Design Conference '98, Brunel University, S. Sivaloganathan and T.M.M. Shahin, Eds., Professional Engineering: London, 1998, pp 321-328.
51. Olesen, J., Design for environment - A framework, in International Conference on Engineering Design, ICED'93: The Hague, 1993.
52. Olesen, J., Strengthening the understanding of conceptual design, in International Conference on Engineering Design, ICED'95: Praha, 1995.
53. Pahl, G. and Beitz, W., Engineering Design. A Systematic Approach. 1995, London: Springer.
54. Papasavva, S. and Moomaw, W.R., Life-cycle global warming impact of CFCs and CFC-substitutes for refrigeration. Journal of Industrial Ecology, 1998, 1(4), pp 71-91.
55. Pedersen, C.S. and Mortensen, A.L., Life cycle management at Brødrene Hartmann A/S - strategy, organisation and implementation in Denmark.
56. Roozenburg, N.F.M. and Eekels, J., Product Design: Fundamentals and Methods. 1991: John Wiley and Sons.
57. Schott, H. and Birkhofer, H., Global engineering network - Applications for green design, in Proceedings of the IFIP WG5.3 international conference on life cycle modeling for innovative products and processes, H. Jansen and F.-L. Krause, Eds., Chapman & Hall: Berlin, 1995, pp 93-105.
58. Sebastian, D.H., Xanthos, M., Ehrenkrantz, E., Leu, M.C., Sirkar, K.K., Caudill, R.J. and Magee, R., Multi life cycle design strategies: Applications in plastics for durable goods, in Proceedings of the IFIP WG5.3 international conference on life cycle modeling for innovative products and processes, H. Jansen and F.-L. Krause, Eds., Chapman & Hall: Berlin, 1995, pp 383-394.
59. Spath, D., Hartel, M. and Tritsch, C., Recycling-oriented information management: A prerequisite for life cycle engineering. Journal of Engineering Design, 1996, 7(3), pp 251-263.
60. Spur, G., Life cycle modeling as a management challenge, in Proceedings of the IFIP WG5.3 international conference on life cycle modeling for innovative products and processes, H. Jansen and F.-L. Krause, Eds., Chapman & Hall: Berlin, 1995, pp 3-13.
61. Starkey, C.V., Engineering Design Decisions. 1992, London: Edward Arnold.
62. Sullivan, J.L. and Young, S.B., Life cycle analyses/assessment. Advanced Materials and Processes, 1995, 147(2), pp 37-40.
63. Tichem, M. and Storm, T., Design coordination to support design for X, in International Conference on Engineering Design, ICED 97: Tampere, 1997, pp 587 - 590.
64. Tillman, A.-M., Ekvall, T., Baumann, H. and Rydberg, T., Choice of system boundaries in life cycle assessment. J. of Cleaner Production, 1994, 2(1), pp 21-29.
65. Tipnis, V.A., Product life cycle economic models - Towards a comprehensive framework for evaluation of environmental impact and competitive advantage. Annals of the CIRP, 1991, 40(1), pp 463-466.
66. Tipnis, V. A., Towards a comprehensive life cycle modeling for innovative strategy, systems, processes and product/services, in Proceedings of the IFIP WG5.3 international conference on life cycle modeling for innovative products and processes, H. Jansen and F.-L. Krause, Eds., Chapman & Hall: Berlin, 1995, pp 43-55.
67. UK Department of the Environment, Transport and the Regions, Sustainable development: Opportunities for change. Consultation paper on a revised UK strategy. 1998.
68. Vigon, B.W., Tolle, D.A., Cornaby, B.W., Latham, H.C., Harrison, C.L., Boguski, T.L., Hunt, R.G. and Sellers, J.D., Life-Cycle Assessment. Inventory Guidelines and Principles. 1994, Boca Raton: Lewis Publishers.
69. Wenzel, H., Hauschild, M.Z., Jørgensen, J. and Alting, L., Environmental tools in product development, in Proceedings of the 1994 IEEE International Symposium on Electronics and the Environment: San Fransisco, 1994, pp 100-108.
70. Wenzel, H., Hauschild, M. and Alting, L., Environmental Assessment of Products. Vol. 1. 1997, London: Chapman & Hall.
71. White, P., Use of life cycle analysis as a management tool in industry, in Life Cycle Analyis Conference, Pira International Limited: Surrey, 1992.
72. Zhang, D., Kuo, T.-C. and Zhang, H.C., Life cycle engineering: concepts and researches. Manufacturing Science and Engineering, 1995, MED-Vol.2.2/MH-Vol.3.2, pp 827-841.
73. Züst, R. and Caduff, G., Methods for continual improvement of products and processes, in Proceedings of the IFIP WG5.3 international conference on life cycle modeling for innovative products and processes, H. Jansen and F.-L. Krause, Eds., Chapman & Hall: Berlin, 1995, pp 420-431.
1. Wear test for refrigerant compressors; translation. DIN 8978. 1973, Berlin: Deutsches Institut fur Normung. 1-8.
2. GT 4-003; Technical data sheet for single stage internally suspended hermetic and accessible hermetic compressors. GT 4. 1973: CECOMAF, European Committee of Manufacturers of Refrigeration Equipment.
3. GT 4-002; Technical data sheet for single stage internally suspended hermetic and accessible hermetic compressors. GT 4. 1973: CECOMAF, European Committee of Manufacturers of Refrigeration Equipment.
4. Blau, P.J., Friction and Wear Transitions of Materials. 1989: Noyes Publications.
5. Burke, M., Carré, S. and Kruse, H., Oil behaviour of the HFCs R32, R125, R134a and one of their mixtures, in CFCs, The Day After, SG Editoriali, Ed., International Institute of Refrigeration: Padova, 1994, pp 89-98.
6. Czichos, H., Becker, S. and Lexow, J., Multilaboratory tribotesting: Results from the Versailles Advanced Materials and Standards Programme on Wear Test Methods. Wear, 1987, 114, pp 109-130.
7. du Parquet, J. , Piras, A. and Bayon, G., Investigation on the miscibiltiy of lubricating oils with refrigerants by mean of neutron radiography. Application to the formulation of oils compatible with HFC refrigerants, in CFCs, The Day After, SG Editoriali, Ed., International Institute of Refrigeration: Padova, 1994, pp 107-114.
8. Engel, L. and Klingele, H., An Atlas of Metal Damage. 1981: Wolfe Publishing Ltd.
9. Fogel, G, The mini-lab concept as an alternative to conventional oil analysis, in Tribological Sensprs and Performance Monitoring; Joint meeting of the Tribology Group - Institute of Physics/IMechE, Institute of Physics: London, 1998.
10. Galyer, J.F.W. and Shotbolt, C.R., Metrology for Engineers. 1991: Cassell Publishers Limited.
11. Gee, M.L., McGuiggan, P.M. and Israelachvili, J.N., Liquid to solid like transitions of molecularly thin films under shear. Journal of Chemical Physics, 1990, 93(3), pp 1895-1906.
12. Hadfield, M., Stolarski, T.A., Cundill, R.T. and Horton, S., Failure modes of ceramic elements with ring-crack defects. Tribology International, 1993, 26(3), pp 157-164.
13. Han, D.H. and Masuko, M., Elucidation of the antiwear performance of several organic phosphates used with different polyol ester base oils from the aspect of interaction between additive and base oil. Tribology Transactions, 1998, 41(4), pp 600-604.
14. Higgins, R.A., Engineering Metallurgy - Part 1. 1993: Edward Arnold.
15. Katafuchi, T., Kaneko, M. and Iino, M., Anti-wear performance of new synthetic lubricants for refrigeration systems with new HFC refrigerant. Tribology Series: Dissipative Processes in Tribology, 1994, 27, pp 163-169.
16. Knapp, M.H., The use of synthetic lubricants in compressors, in Purdue Compressor Technical Conference, 1972, pp 480-482.
17. Mizuhara, K. and Tomimoto, M., The effect of refrigerants in the mixed lubrication regime, in Proceedings of the 1995 Symposium in Tribology of Hydraulic Pump Testing. ASTM STP 1310, G.E. Totten, G.H. Kling and D.J. Smolenski, Eds., American Society for Testing and Materials, 1996, pp 38-48.
18. Mondal, D.P., Das, S., Jha, A.K. and Yegneswaran, A.H., Abrasive wear of Al alloy - Al2O3 particle composite: a study on the combined effect of load and size abrasive. Wear, 1998, 223, pp 131-138.
19. Na, B.C., Chun, K.J. and Han, D.-C., A tribological study of refrigeration oils under HFC-134a environment. Tribology International, 1998, 30(9), pp 707-716.
20. Nautiyal, P.C. and Schey, J.A., Transfer of aluminium to steel in sliding contact: Effects of lubricant. ASME Journal of Tribology, 1990, 112(April), pp 282-287.
21. Neale, M.J., Tribology Handbook. 1973: Butterworths.
22. Pramila Bai, B.N., Biswas, S.K. and Kumtekar, N.N., Scanning electron microscopy study of worn Al-Si alloy surfaces. Wear, 1983, 87, pp 237-249.
23. Rasheed, H.E., Effect of surface waviness on the hydrodynamic lubrication of a plain cylindrical sliding element bearing. Wear, 1998, 223, pp 1-6.
24. Remigy, J.-C., Nakache, E. and Brechot, P.D., Structure effect of refrigeration polyolester oils for use in HFC-134a compressors. Journal of Synthetic Lubrication, 1997, 14(3), pp 237-247.
25. Reyes-Gavilán, J., Eckard, A., Flak, T. and Tritcak, T, A review of lubrication and performance issues in refrigeration systems using an HFC (R-134a) refrigerant. Lubrication Engineering, 1996, 52(4), pp 317-322.
26. Safari, S. and Hadfield, M., Wear behaviour of the piston/gudgeon pin in a hermetic compressor with replacement CFC refrigerants. Wear, 1998, 219(1), pp 8-15.
27. Sanvordenker, K.S., Durability of HFC-134a compressors - The role of the lubricant, in International Appliance Technical Conference: Madison, 1991, pp 37-50.
28. Sargent, L.B., Jr., The influence of aluminium oxides on the transfer of some aluminium alloys to steel in sliding contact. Lubrication Engineering, 1981, 38(10), pp 615-621.
29. Sargent, L.B., Jr., Milz, W.C. and Atkinson, R.E., The effect of aluminium transfer upon friction between aluminium alloys and steel. Lubrication Engineering, 1982, 39(11), pp 706-711.
30. Short, G.D., Synthetic lubricants and their refrigeration applications. Lubrication Engineering, 1990, 46(4), pp 239-247.
31. Short, G.D. and Cavestri, R.C., High-viscosity ester lubricants for alternative refrigerants. ASHRAE Transactions, 1992, 5(2), pp 789-795.
32. Short, G.D. and Rajewski, T.E., Lubricants for use with HFC based refrigerants the current state of the art, in Proceedings of the International Conference on Energy and the Environment: Shanghai, 1996, pp 321-330.
33. Sundaresan, S.G. and Finkenstadt, W.R., Polyalkalylene glycol and polyolester lubricant candidates for use with HFC-134a in refrigeration compressors. ASHRAE Transactions, 1992, 5(3), pp 796-803.
34. Takesue, M. and Tominaga, S., Wear and scuffing characteristics of polyvinylether in an HFC atmosphere, in Purdue Conference, 1998, pp 379-384.
35. Tazaki, T., Konishi, T. and Nagamatsu, N., Development of polyvinylether refrigeration oil for hydrofluorocarbon air-conditioning systems. ASHRAE Transactions, 1998, 104(1B), pp 1341-1346.
36. Tseregounis, S.I., Spearot, J.A., Rounds, F.G., Baker, J.A. and Serrianne, B.C., Laboratory wear tests for qualifying automotive air conditioning lubricants for use with refrigerant HFC-134a, in Tribology: Wear Test Selection for Design and Application, ASTM STP 1199, A.W. Ruff and Raymond G. Bayer, Eds., American Society for Testing and Materials: Philadelphia, 1993, pp 149-172.
37. Tseregounis, S.I., Wear and galling of 356-T6 aluminium-on-steel in low amplitude reciprocating sliding in the presence of synthetic lubricants in HFC-134a atmosphere. Tribology Transactions, 1996, 39(1), pp 1-12.
38. Yamamoto, Y., Gondo, S. and Kim, J., Friction and wear performance of polyvinylether (PVE) in bound lubrication regime as a lubricant for an alternative refrigerant, in Purdue Conference, 1998, pp 367-372.
39. Yoon, H.K., Poppe, C.H. and Cusano, C., Predicting lubricant performance in refrigerant compressors: A comparison between component testing and benchtesters. ASHRAE Transactions, 1996, 102(1), pp 86-95.
40. Yoon, H., Sheiretov, T. and Cusano, C., Tribological evaluation of some
aluminium-based materials in lubricant/refrigerant mixtures. Wear, 1998, 218(1), pp 54-65.
1. Akiya, T., Shimazaki, T., Oowa, M., Nakaiwa, M., Utada, T., Nakane, T. and Hakuta, T., The effects of various agents on the phase equilibria of HFC-134a gas hydrates, in Proceedings of the 1st International Conference on Energy and the Environment, Efficient Utilisation of Energy and Water Resources, S.A. Tassou, Ed., Brunel University: Limassol, 1997, pp 581-588.
2. Al-Shemmeri, T.T., Coping with new environmentally friendly refrigerants, in Proceedings of the 1st International Conference on Energy and the Environment, Efficient Utilisation of Energy and Water Resources, S.A. Tassou, Ed., Brunel University: Limassol, 1997, pp 685-690.
3. Anon, CFCs still widely used despite ban on production. ASHRAE Journal, 1998, 40(6), p. 26.
4. Bansal, P.K., Dutto, T. and Hivet, B., Performance evaluation of environmentally benign refrigerants in heat pumps 1: A simulation study. International Journal of Refrigeration, 1992, 15(6), pp 340-348.
5. Bansal, P.K., Dutto, T. and Hivet, B., Performance evaluation of environmentally benign refrigerants in heat pumps 2: An experimental study with HFC-134a. International Journal of Refrigeration, 1992, 15(6), pp 349-356.
6. Butler, D.J.G., Monitoring the performance of new refrigerants, in , CIBSE/ASHRAE Joint National Conference, 1996, pp 280-287.
7. Butler, D., Testing alternative refrigerants for air conditioning systems. Building Services Journal, 1998, July 1998, pp 45-47.
8. Chatzidakis, S.K., Rouvas, A.K. and Chatzidakis, K.S., Energy analysis of a vapour mechanical compression heat pump using HFC-134a and CFC-12 for various Greek cities, in Proceedings of the 1st International Conference on Energy and the Environment, Efficient Utilisation of Energy and Water Resources, S.A. Tassou, Ed., Brunel University: Limassol, 1997, pp 605-611.
9. EPA, UNEP: Montreal protocol on substances that deplete the ozone layer, 1994 report of the refrigeration, air conditioning and heat pumps technical options committee, 1995 assessment, 1995, National Center for Environmental Publications and Information, United States Environmental Protection Agency: Cincinnati. p. 95-110.
10. Fatouh, M., R134a-DMA as a working fluid for a compression heat pump with solution circuit, in Proceedings of the 1st International Conference on Energy and the Environment, Efficient Utilisation of Energy and Water Resources, S.A. Tassou, Ed., Brunel University: Limassol, 1997, pp 612-621.
11. Garofano, A. and Fabbretti, V., Theoretical comparison of refrigerant cycle for air conditioning system operating with R22, R134a, blends and relative experimental tests, in CFCs, The Day After, SG Editoriali, Ed., International Institute of Refrigeration: Padova, 1994, pp 267-274.
12. Ge, Y.T., Yan, Q.S. and Tassou, S., A transient model of the on-off operating cycle of an air to air split heat pump, in Proceedings of the 1st International Conference on Energy and the Environment, Efficient Utilisation of Energy and Water Resources, S.A. Tassou, Ed., Brunel University: Limassol, 1997, pp 661-668.
13. Grebenkov, A.J., Kotelevsky, Y.G., Saplitza, V.V., Beljaeva, O.V., Zajatz, T.A. and Timofeev, B.D., Experimental Study of thermal conductivity of some ozone safe refrigerants and speed of sound in their liquid phase, in CFCs, The Day After, SG Editoriali, Ed., International Institute of Refrigeration: Padova, 1994, pp 419-429.
14. Hewitt, N.J., McMullan, J.T. and Mongey, B., The replacement of HCFC 22 in refrigeration systems, in CFCs, The Day After, SG Editoriali, Ed., International Institute of Refrigeration: Padova, 1994, pp 231-237.
15. Janssen, M. J., de Wit, J. A. and Kuijpers, L. J. M., Cycling losses in domestic appliances: an experimental and theoretical analysis. International Journal of Refrigeration, 1992, 15(3), pp 152-158.
16. Luzzatto, D., Magni, F. and Redaelli, G., Alternative refrigerants: applications of R22 alternatives in air conditioning equipment, in CFCs, The Day After, SG Editoriali, Ed., International Institute of Refrigeration: Padova, 1994, pp 307-314.
17. Mattarolo, L., Thermodynamics, technology and environmental impact in refrigeration, in CFCs, The Day After, SG Editoriali, Ed., International Institute of Refrigeration: Padova, 1994.
18. Meier, A., Refrigerator energy use in the laboratory and in the field. Energy and Buildings, 1995, 22, pp 233-243.
19. Rogers, G.F.C. and Mayhew, Y.R., Engineering Thermodynamics, Work and Heat Transfer. 1980: Longman.
20. Sibley, H.W., Alternative refrigerants: potential impact on system design, in CFCs, The Day After, SG Editoriali, Ed., International Institute of Refrigeration: Padova, 1994, pp 49-55.
21. Vineyard, E.A. and Sand, J.R., Experimental and cost analyses of a one kilowatt-hour/day domestic refrigerator-freezer, in Proceedings of the 1997 ASHRAE Annual Meeting, American Society of heating, Refrigeration, and Air Conditioning Engineers: Boston, 1997, pp 621-629.
22. Weaver, P.M., Ashby, M.F., Burgess, S. and Shibaike, N., Selection of materials to reduce environmental impact: a case study on refrigerator insulation. Materials & Design, 1996, 17(1), pp 11-17.
23. Yajima, R., Taira, S., Domyo, N. and Masuda, K., The performance evaluation of HFC alternative refrigerants for HCFC-22, in CFCs, The Day After, SG Editoriali, Ed., International Institute of Refrigeration: Padova, 1994, pp 239-247.
24. Zhivitsa, V.I. and Chtelmakh, O.N., Analysis of electrical power consumption in
refrigeration plant, in Proceedings of the 1st International Conference on Energy and the
Environment, Efficient Utilisation of Energy and Water Resources, S.A. Tassou, Ed., Brunel
University: Limassol, 1997, pp 637-642.
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