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The development of a link between building environment and manufacturing process simulation with the view of integrating

The development of a link between building environment and manufacturing process simulation with the view of integrating the two disciplines into one tool Presented by Michael Oates (moates@dmu.ac.uk). Research

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The development of a link between building environment and manufacturing process simulation with the view of integrating

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  1. The development of a link between building environment and manufacturing process simulation with the view of integrating the two disciplines into one tool Presented by Michael Oates (moates@dmu.ac.uk)

  2. Research The development of a link between building environment and manufacturing process simulation with the view of integrating the two disciplines into one tool THERM (THrough life Energy and Resource Modelling) Why is such a tool required? Wasted opportunities Separate design disciplines Sub-systems Green issues Description and functionality of the tool to: One integrated tool Mapping and monitoring Identify when, where and duration of material, energy and waste (MEW) streams Introduction

  3. Literature Search Al-Homoud, M. (2001). Computer-aided Building Energy Analysis Techniques. Building and Environment, Vol. 36, Pages 421 – 433. Beers, D. V. and Biswas, W. K. (2008). A regional synergy approach to energy recovery: The case of the Kwinana industrial area, Western Australia. Energy Conversion and Management, Vol. 49, Pages 3051-3062. Clarke, J. (2001). Energy Simulation in Building Design. 2nd Ed. Butterworth Heinemann Frosch, R. A. & Gallopoulos, N. E. (1989). Strategies for Manufacturing. Scientific American, Vol. 261, Pages 144 - 152. Ossimitz, G. and Mrotzek, M. (2008). The Basics of System Dynamics: Discrete vs. Continuous Modelling of Time. International System Dynamics Conference. Athens/Greece. Pidd, M (2004). Computer Simulation in Management Science. 5th Ed. John Wiley & Sons Ltd Schriber, T. J., and Brunner. D. T. (2007). Inside Discrete Event Simulation Software: How It Works and Why It Matters. In proceedings of the 2007 Winter Simulation Conference

  4. Preliminary Concept Thermal zones max Waste levels low When, where and duration of MEW outputs Interaction between the built environment and manufacturing processes Processes • - Heating • - Ventilation • Air conditioning • Internal gains • - Occupancy Built environment Dynamic Simulation Manufacturing process • Low/ high Temp Process • Drying / Separation • Compressed Air • Motors • Refrigeration Discrete event Simulation

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