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New approaches to the process industries : the manufacturing plant of the future /
Competition from emerging and developing countries, challenges related to energy and water, the continuing increase in the global population and the obligation to be sustainable are all impacting developed countries such as the United States, France, etc. Manufacturing has been almost totally neglec...
| Clasificación: | Libro Electrónico |
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| Autores principales: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
London, UK : Hoboken, NJ :
ISTE, Ltd. ; Wiley,
2014.
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| Colección: | Control, systems and industrial engineering series.
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| Temas: | |
| Acceso en línea: | Texto completo (Requiere registro previo con correo institucional) |
Tabla de Contenidos:
- Cover; Title Page; Copyright ; Contents; Foreword; Acknowledgements; Introduction; Chapter 1. Project Management
- Systems Engineering
- The Industrialization Process; 1.1. Projects and project management; 1.1.1. Definitions; 1.1.2. Project critical success factors; 1.2. Systems engineering; 1.2.1. Systems classification; 1.3. The industrialization process; 1.3.1. Definition: the industrialization steps; 1.3.2. Origin of projects
- the initialization phase
- preliminary projects; 1.3.3. Industrialization steps. Typical costs and relevant documents
- time scale.
- 1.3.4. Validation steps and project stakeholders' involvement1.4. Project engineering; 1.4.1. Conceptual engineering and WBS; 1.4.2. Project organization: customer/contractor relationship; 1.4.3. Project scope control: engineering tools; 1.4.4. The project on the owner's side
- the investment file
- impact on company profitability; 1.5. Bibliography; Chapter 2. Metrics For Sustainability Assessment of Chemical Processes; 2.1. Sustainable development in chemical process engineering; 2.2. Indicators, indices and metrics for sustainability; 2.3. Frontiers of the system; 2.4. Metrics.
- 2.4.1. Stages in sustainable process design2.4.2. AIChE metrics; 2.4.3. IChemE metrics; 2.4.4. Using metrics for sustainable development; 2.4.5. Potential environmental impact index (waste reduction algorithm, WAR); 2.4.6. Sustainable process index (SPI); 2.4.7. Exergy as a thermodynamic base for sustainable development metrics; 2.4.8. Indicators from system-based environmental assessment management; 2.4.9. Toward a sustainable lifecycle assessment; 2.5. Design methods for sustainable processes and systems; 2.5.1. Several roads to more sustainable processes and systems.
- 2.5.2. Industrial ecology2.5.3. Lifecycle assessment; 2.5.4. Green chemistry/green engineering, process intensification and waste management; 2.6. Conclusions; 2.7. Bibliography; Chapter 3. From Preliminary Projects to Projects; 3.1. Introduction; 3.2. Process design: an interactive and multiple-step activity; 3.3. Process flowsheeting; 3.4. Optimization methods; 3.4.1. Multi-objective optimization (MOOP); 3.4.2. MCDM (Multiple Choice Decision-Making) methods; 3.5. Literature review in process modeling/optimization techniques and tools based on LCA.
- 3.6. Case study: eco-designing a biodiesel production process3.6.1. Biodiesel as an alternative to fossil fuel; 3.6.2. Methodology and tools; 3.6.3. Biodiesel production simulation; 3.6.4. Inventory data and identification of potential factors; 3.6.5. Optimization of biodiesel production; 3.7. Conclusions and suggestions; 3.8. Bibliography; Chapter 4. Analysis of the Strategy of the Enterprise and the Enterprise Strategic Plan; 4.1. The industrial enterprise: basic main features; 4.2. The couple "product/market"; 4.2.1. Product viewed at the enterprise level.