Preface -- Energy Efficiency in a Competitive Economy -- Ethics & Answers: Engineering Efficiency for a Sustainable Future -- Technology Developments -- Integration of Motors and Drives -- Design of Motors for Inverter Operation -- Die Casting Copper Motor Rotors: Mold Materials and Processing for Cost-Effective Manufacturing -- Review of the System Compatibility and Ride-through Options for AC and DC Drives Including Multilevel Inverters -- to the Permanent Magnet Motor Market -- High Efficiency Motors - Performance, Economy & Reliability by Optimisation -- The Influence of Selected Losses Components on Induction Squirrel-Cage Motor Efficiency -- Inverter Fed High-Speed Solid-Rotor Induction Motors for IndustrialApplications -- Switched Reluctance Drive for Mass Application -- The Written-Pole™ Motor: High Efficiency - Low Start Current -- Motor and Drive Integration with Passive Components Realised Using the Stator Core -- Efficiency Improvement of Variable Speed Electrical Drives for HVAC Applications -- Higher Efficiency Drive for Fluid Treatments -- Motor System -- Characterisation and Applications Characterisation of EU Motor Use -- Minimising Efficiency Loss Caused by Motor Rewinds -- Improving Efficiency in Motor Driven Systems - The Iron Ore Industry -- Optimising Fan Systems for Energy Efficiency -- Energy Optimized Drive Systems Design -- Using Collaboration to Achieve Industrial Market Change -- Pump Design and Applications -- Pump System Effectiveness -- Driver Selection Matched to Demand A Consideration for Maximising Lifecycle Costs by Using the Correct Driver -- Environmental Impact Assessment (LCA) Energy and Re-cycling for a Circulator -- Promoting the Purchase of More Efficient Pumps, A SAVE Study -- On Site Testing -- SQ -Submersible Pump with Integrated Permanent Magnet Motor Drive -- Test Methods for Induction Motors -- Induction Motor Efficiency Measurement -- Experience Factors When Testing for Efficiency and Correlating Resultswith Design -- Approaching the Truth in Induction Motor Efficiency -- Precise Efficiency Data for Electric Motors - an Illusion? -- Calorimetric Method to Measure Total Losses of the Induction Motor -- Precision Calorimetry for Stray Load Loss Determination -- A Test and Measurement System for Test of Electrical Drive Systems -- Induction Motor Efficiency Standards -- Policies -- The European Negotiated Agreement to Improve Motor Efficiency -- EPAct Legislation - The United States Experience of Minimum Efficiency Standards for Induction Motors -- The Challenge to Define the New IEC Test Method -- Evaluating the Impact of a Government-Sponsored Motor Driven System Efficiency Program: The U.S. Experience -- Minimum Standards and Motor Labelling -- Canada's Energy Efficiency Regulations for Electric Motors: Four Years Later -- Motors: IEA Perspectives and Activities -- Perspectives of Labelling and Standards of Electric Motors in Europe -- Australia's National Greenhouse Strategy and Electric Motor Efficiency -- Results of the Danish "High Efficiency Motors Campaign" -- China - Motors: Opportunities and Activities -- Proposed Principles of the Future Standard for High Efficiency Induction Motors -- Brazilian Minimum Efficiency Level for Industrial Motors: A Successful Low Cost Program -- Programmes -- The UK Energy Efficiency Best Practice Programme - Lessons Learned -- The New European Database on Efficient Electric Motor Systems:EURODEEM - 98 -- Evaluation of the Design Options and Cost Impact of Improving Induction Motor Efficiency -- "Life-Cycle Costs" of Industrial Electric Drives in the Process Industry-Energy Consumption and Economics of Electric Drives -- IEA Hi-Motors Competition -- LCC - Based Guidelines on Procurement of Energy Intensive Equipment in Industries -- Examples of Financing Energy Efficiency in Motor Systems -- A New Pay-as-You Save Scheme for the Retrofitting of Variable Speed Drives to Fans and Pumps -- The Impact of Efficiency Legislation on the US Motor Market -- Contract Energy Management of Compressed Air -- Electric Motor Management Scheme.