A practical guide to energy management for processors:
Gespeichert in:
| Format: | Elektronisch E-Book |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Shrewsbury
ISmithers Rapra Pub.
2012
|
| Schlagworte: | |
| Online-Zugang: | FAW01 FAW02 Volltext |
| Beschreibung: | 5.2.10 Energy Optimised Press Systems Print version record |
| Beschreibung: | 1 online resource (154 pages) |
| ISBN: | 184735596X 9781847355966 |
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| 245 | 1 | 0 | |a A practical guide to energy management for processors |c Energywise |
| 264 | 1 | |a Shrewsbury |b ISmithers Rapra Pub. |c 2012 | |
| 300 | |a 1 online resource (154 pages) | ||
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| 500 | |a Print version record | ||
| 505 | 8 | |a A Practical Guide to Energy Management for Processors; Contributors; Contents; 1 Introduction; 1.1 The Need for Energy Reduction; 1.2 The ENERGYWISE Plastics Project; 1.3 A Practical Guide for Processors; 1.3.1 Injection Moulding; 1.3.2 Extrusion; 1.3.3 Rotational Moulding; 1.3.4 Compression Moulding; 1.3.5 Moulds and Tooling; 2 Injection Moulding; 2.1 The Injection Moulding Process; 2.2 Where and How to Save Energy in the Injection Moulding Process; 2.3 Machine, Mould and Ancillaries Optimisation; 2.3.1 Barrel Insulation Jackets | |
| 505 | 8 | |a 2.3.2 Hydraulic versus Electric versus Hybrid Machines2.3.3 Conformal Cooling; 2.3.4 Variable Speed Drives; 2.3.5 Case Study: Potential Savings when Fitting a Variable Speed Drive; 2.4 Basic Actions to Reduce Energy Consumption when Injection Moulding; 2.4.1 Process Stability; 2.4.2 Parameter Optimisation; 2.4.3 Cycle Time Optimisation; 2.4.4 Periodic Assessment of Scrap Levels; 2.4.5 Periodic Revision of Mould Performance; 2.4.6 Injection Machine Adaptation; 2.4.7 Ancillary Equipment; 2.4.8 Adequate Maintenance of Injection Moulding Machines and Ancillary Equipment | |
| 505 | 8 | |a 2.4.9 Down Time Energy Consumption2.4.10 Cycle Time Reduction with New Technology; 2.5 Injection Cycle Parameters Optimisation; 2.5.1 Process Parameters Adjustment: Standard Procedure for Injection Moulding Process Setup; 2.5.2 General Recommendations; 2.5.3 Clamping Unit Adjustment; 2.5.4 Plasticising Unit Adjustment; 2.5.5 Injection Unit Adjustment; 2.5.6 Standard Operation Procedure; 2.5.7 Parameter Optimisation; 3 Extrusion; 3.1 The Extrusion Process; 3.2 Reducing Energy Consumption in the Extrusion Process; 3.2.1 Flat Film Extrusion; 3.2.2 Blown Film Extrusion; 3.2.3 Profile Extrusion | |
| 505 | 8 | |a 3.2.4 Motors and Drives3.2.5 Compressed Air; 3.2.6 Free Cooling; 3.2.7 10 Tips to Reduce Your Energy Consumption in Extrusion; 4 Rotational Moulding; 4.1 The Rotational Moulding Process; 4.1.1 Background to Rotational Moulding; 4.1.2 The Rotational Moulding Technology; 4.1.3 Advantages and Limitations of Rotational Moulding; 4.1.4 Machinery for Rotational Moulding; 4.1.5 Moulds for Rotational Moulding; 4.1.6 Materials for Rotational Moulding; 4.1.7 Factors Influencing Moulded Part Quality [8]; 4.2 Reducing Energy Consumption in the Rotational Moulding Process; 4.2.1 Good Housekeeping | |
| 505 | 8 | |a 4.2.2 Equipment Improvement4.2.3 Process Improvement; 4.2.4 Materials; 4.2.5 Action Points for an Energy Efficient Operation; 5 Compression Moulding; 5.1 The Compression Moulding Process; 5.2 Reducing Energy Consumption in Compression Moulding; 5.2.1 Control Unit; 5.2.2 Hydraulic Drive; 5.2.3 Heating and Cooling System; 5.2.4 Mould Unit; 5.2.5 Control of the Machine Run-time; 5.2.6 Setting the Machine Parameters; 5.2.7 Controlling Process Parameters; 5.2.8 Insulation of the Mould; 5.2.9 New Process Design: Longfibre Thermoplastics/In-line Compounding Process | |
| 505 | 8 | |a Do you know how best to manage and reduce your energy consumption? This book gives comprehensive guidance on effective energy management for organisations in the polymer processing industry. This book is one of three which support the ENERGYWISE Plastics Project eLearning platform for European plastics processors to increase their knowledge and understanding of energy management. Topics covered include: Understanding Energy | |
| 650 | 7 | |a TECHNOLOGY & ENGINEERING / Chemical & Biochemical |2 bisacsh | |
| 650 | 7 | |a Plastics industry and trade / Energy conservation |2 fast | |
| 650 | 4 | |a Plastics industry and trade |x Energy conservation | |
| 710 | 2 | |a Energywise |e Sonstige |4 oth | |
| 776 | 0 | 8 | |i Erscheint auch als |n Druck-Ausgabe |a Consortium, Energywise |t A Practical Guide to Energy Management for Processors |
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| bvnumber | BV043038017 |
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| contents | A Practical Guide to Energy Management for Processors; Contributors; Contents; 1 Introduction; 1.1 The Need for Energy Reduction; 1.2 The ENERGYWISE Plastics Project; 1.3 A Practical Guide for Processors; 1.3.1 Injection Moulding; 1.3.2 Extrusion; 1.3.3 Rotational Moulding; 1.3.4 Compression Moulding; 1.3.5 Moulds and Tooling; 2 Injection Moulding; 2.1 The Injection Moulding Process; 2.2 Where and How to Save Energy in the Injection Moulding Process; 2.3 Machine, Mould and Ancillaries Optimisation; 2.3.1 Barrel Insulation Jackets 2.3.2 Hydraulic versus Electric versus Hybrid Machines2.3.3 Conformal Cooling; 2.3.4 Variable Speed Drives; 2.3.5 Case Study: Potential Savings when Fitting a Variable Speed Drive; 2.4 Basic Actions to Reduce Energy Consumption when Injection Moulding; 2.4.1 Process Stability; 2.4.2 Parameter Optimisation; 2.4.3 Cycle Time Optimisation; 2.4.4 Periodic Assessment of Scrap Levels; 2.4.5 Periodic Revision of Mould Performance; 2.4.6 Injection Machine Adaptation; 2.4.7 Ancillary Equipment; 2.4.8 Adequate Maintenance of Injection Moulding Machines and Ancillary Equipment 2.4.9 Down Time Energy Consumption2.4.10 Cycle Time Reduction with New Technology; 2.5 Injection Cycle Parameters Optimisation; 2.5.1 Process Parameters Adjustment: Standard Procedure for Injection Moulding Process Setup; 2.5.2 General Recommendations; 2.5.3 Clamping Unit Adjustment; 2.5.4 Plasticising Unit Adjustment; 2.5.5 Injection Unit Adjustment; 2.5.6 Standard Operation Procedure; 2.5.7 Parameter Optimisation; 3 Extrusion; 3.1 The Extrusion Process; 3.2 Reducing Energy Consumption in the Extrusion Process; 3.2.1 Flat Film Extrusion; 3.2.2 Blown Film Extrusion; 3.2.3 Profile Extrusion 3.2.4 Motors and Drives3.2.5 Compressed Air; 3.2.6 Free Cooling; 3.2.7 10 Tips to Reduce Your Energy Consumption in Extrusion; 4 Rotational Moulding; 4.1 The Rotational Moulding Process; 4.1.1 Background to Rotational Moulding; 4.1.2 The Rotational Moulding Technology; 4.1.3 Advantages and Limitations of Rotational Moulding; 4.1.4 Machinery for Rotational Moulding; 4.1.5 Moulds for Rotational Moulding; 4.1.6 Materials for Rotational Moulding; 4.1.7 Factors Influencing Moulded Part Quality [8]; 4.2 Reducing Energy Consumption in the Rotational Moulding Process; 4.2.1 Good Housekeeping 4.2.2 Equipment Improvement4.2.3 Process Improvement; 4.2.4 Materials; 4.2.5 Action Points for an Energy Efficient Operation; 5 Compression Moulding; 5.1 The Compression Moulding Process; 5.2 Reducing Energy Consumption in Compression Moulding; 5.2.1 Control Unit; 5.2.2 Hydraulic Drive; 5.2.3 Heating and Cooling System; 5.2.4 Mould Unit; 5.2.5 Control of the Machine Run-time; 5.2.6 Setting the Machine Parameters; 5.2.7 Controlling Process Parameters; 5.2.8 Insulation of the Mould; 5.2.9 New Process Design: Longfibre Thermoplastics/In-line Compounding Process Do you know how best to manage and reduce your energy consumption? This book gives comprehensive guidance on effective energy management for organisations in the polymer processing industry. This book is one of three which support the ENERGYWISE Plastics Project eLearning platform for European plastics processors to increase their knowledge and understanding of energy management. Topics covered include: Understanding Energy |
| ctrlnum | (OCoLC)778340100 (DE-599)BVBBV043038017 |
| dewey-full | 668.4 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 668 - Technology of other organic products |
| dewey-raw | 668.4 |
| dewey-search | 668.4 |
| dewey-sort | 3668.4 |
| dewey-tens | 660 - Chemical engineering |
| discipline | Chemie / Pharmazie |
| format | Electronic eBook |
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| id | DE-604.BV043038017 |
| illustrated | Not Illustrated |
| indexdate | 2024-07-10T07:15:40Z |
| institution | BVB |
| isbn | 184735596X 9781847355966 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-028462664 |
| oclc_num | 778340100 |
| open_access_boolean | |
| owner | DE-1046 DE-1047 |
| owner_facet | DE-1046 DE-1047 |
| physical | 1 online resource (154 pages) |
| psigel | ZDB-4-EBA ZDB-4-EBA FAW_PDA_EBA |
| publishDate | 2012 |
| publishDateSearch | 2012 |
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| publisher | ISmithers Rapra Pub. |
| record_format | marc |
| spelling | A practical guide to energy management for processors Energywise Shrewsbury ISmithers Rapra Pub. 2012 1 online resource (154 pages) txt rdacontent c rdamedia cr rdacarrier 5.2.10 Energy Optimised Press Systems Print version record A Practical Guide to Energy Management for Processors; Contributors; Contents; 1 Introduction; 1.1 The Need for Energy Reduction; 1.2 The ENERGYWISE Plastics Project; 1.3 A Practical Guide for Processors; 1.3.1 Injection Moulding; 1.3.2 Extrusion; 1.3.3 Rotational Moulding; 1.3.4 Compression Moulding; 1.3.5 Moulds and Tooling; 2 Injection Moulding; 2.1 The Injection Moulding Process; 2.2 Where and How to Save Energy in the Injection Moulding Process; 2.3 Machine, Mould and Ancillaries Optimisation; 2.3.1 Barrel Insulation Jackets 2.3.2 Hydraulic versus Electric versus Hybrid Machines2.3.3 Conformal Cooling; 2.3.4 Variable Speed Drives; 2.3.5 Case Study: Potential Savings when Fitting a Variable Speed Drive; 2.4 Basic Actions to Reduce Energy Consumption when Injection Moulding; 2.4.1 Process Stability; 2.4.2 Parameter Optimisation; 2.4.3 Cycle Time Optimisation; 2.4.4 Periodic Assessment of Scrap Levels; 2.4.5 Periodic Revision of Mould Performance; 2.4.6 Injection Machine Adaptation; 2.4.7 Ancillary Equipment; 2.4.8 Adequate Maintenance of Injection Moulding Machines and Ancillary Equipment 2.4.9 Down Time Energy Consumption2.4.10 Cycle Time Reduction with New Technology; 2.5 Injection Cycle Parameters Optimisation; 2.5.1 Process Parameters Adjustment: Standard Procedure for Injection Moulding Process Setup; 2.5.2 General Recommendations; 2.5.3 Clamping Unit Adjustment; 2.5.4 Plasticising Unit Adjustment; 2.5.5 Injection Unit Adjustment; 2.5.6 Standard Operation Procedure; 2.5.7 Parameter Optimisation; 3 Extrusion; 3.1 The Extrusion Process; 3.2 Reducing Energy Consumption in the Extrusion Process; 3.2.1 Flat Film Extrusion; 3.2.2 Blown Film Extrusion; 3.2.3 Profile Extrusion 3.2.4 Motors and Drives3.2.5 Compressed Air; 3.2.6 Free Cooling; 3.2.7 10 Tips to Reduce Your Energy Consumption in Extrusion; 4 Rotational Moulding; 4.1 The Rotational Moulding Process; 4.1.1 Background to Rotational Moulding; 4.1.2 The Rotational Moulding Technology; 4.1.3 Advantages and Limitations of Rotational Moulding; 4.1.4 Machinery for Rotational Moulding; 4.1.5 Moulds for Rotational Moulding; 4.1.6 Materials for Rotational Moulding; 4.1.7 Factors Influencing Moulded Part Quality [8]; 4.2 Reducing Energy Consumption in the Rotational Moulding Process; 4.2.1 Good Housekeeping 4.2.2 Equipment Improvement4.2.3 Process Improvement; 4.2.4 Materials; 4.2.5 Action Points for an Energy Efficient Operation; 5 Compression Moulding; 5.1 The Compression Moulding Process; 5.2 Reducing Energy Consumption in Compression Moulding; 5.2.1 Control Unit; 5.2.2 Hydraulic Drive; 5.2.3 Heating and Cooling System; 5.2.4 Mould Unit; 5.2.5 Control of the Machine Run-time; 5.2.6 Setting the Machine Parameters; 5.2.7 Controlling Process Parameters; 5.2.8 Insulation of the Mould; 5.2.9 New Process Design: Longfibre Thermoplastics/In-line Compounding Process Do you know how best to manage and reduce your energy consumption? This book gives comprehensive guidance on effective energy management for organisations in the polymer processing industry. This book is one of three which support the ENERGYWISE Plastics Project eLearning platform for European plastics processors to increase their knowledge and understanding of energy management. Topics covered include: Understanding Energy TECHNOLOGY & ENGINEERING / Chemical & Biochemical bisacsh Plastics industry and trade / Energy conservation fast Plastics industry and trade Energy conservation Energywise Sonstige oth Erscheint auch als Druck-Ausgabe Consortium, Energywise A Practical Guide to Energy Management for Processors http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=434406 Aggregator Volltext |
| spellingShingle | A practical guide to energy management for processors A Practical Guide to Energy Management for Processors; Contributors; Contents; 1 Introduction; 1.1 The Need for Energy Reduction; 1.2 The ENERGYWISE Plastics Project; 1.3 A Practical Guide for Processors; 1.3.1 Injection Moulding; 1.3.2 Extrusion; 1.3.3 Rotational Moulding; 1.3.4 Compression Moulding; 1.3.5 Moulds and Tooling; 2 Injection Moulding; 2.1 The Injection Moulding Process; 2.2 Where and How to Save Energy in the Injection Moulding Process; 2.3 Machine, Mould and Ancillaries Optimisation; 2.3.1 Barrel Insulation Jackets 2.3.2 Hydraulic versus Electric versus Hybrid Machines2.3.3 Conformal Cooling; 2.3.4 Variable Speed Drives; 2.3.5 Case Study: Potential Savings when Fitting a Variable Speed Drive; 2.4 Basic Actions to Reduce Energy Consumption when Injection Moulding; 2.4.1 Process Stability; 2.4.2 Parameter Optimisation; 2.4.3 Cycle Time Optimisation; 2.4.4 Periodic Assessment of Scrap Levels; 2.4.5 Periodic Revision of Mould Performance; 2.4.6 Injection Machine Adaptation; 2.4.7 Ancillary Equipment; 2.4.8 Adequate Maintenance of Injection Moulding Machines and Ancillary Equipment 2.4.9 Down Time Energy Consumption2.4.10 Cycle Time Reduction with New Technology; 2.5 Injection Cycle Parameters Optimisation; 2.5.1 Process Parameters Adjustment: Standard Procedure for Injection Moulding Process Setup; 2.5.2 General Recommendations; 2.5.3 Clamping Unit Adjustment; 2.5.4 Plasticising Unit Adjustment; 2.5.5 Injection Unit Adjustment; 2.5.6 Standard Operation Procedure; 2.5.7 Parameter Optimisation; 3 Extrusion; 3.1 The Extrusion Process; 3.2 Reducing Energy Consumption in the Extrusion Process; 3.2.1 Flat Film Extrusion; 3.2.2 Blown Film Extrusion; 3.2.3 Profile Extrusion 3.2.4 Motors and Drives3.2.5 Compressed Air; 3.2.6 Free Cooling; 3.2.7 10 Tips to Reduce Your Energy Consumption in Extrusion; 4 Rotational Moulding; 4.1 The Rotational Moulding Process; 4.1.1 Background to Rotational Moulding; 4.1.2 The Rotational Moulding Technology; 4.1.3 Advantages and Limitations of Rotational Moulding; 4.1.4 Machinery for Rotational Moulding; 4.1.5 Moulds for Rotational Moulding; 4.1.6 Materials for Rotational Moulding; 4.1.7 Factors Influencing Moulded Part Quality [8]; 4.2 Reducing Energy Consumption in the Rotational Moulding Process; 4.2.1 Good Housekeeping 4.2.2 Equipment Improvement4.2.3 Process Improvement; 4.2.4 Materials; 4.2.5 Action Points for an Energy Efficient Operation; 5 Compression Moulding; 5.1 The Compression Moulding Process; 5.2 Reducing Energy Consumption in Compression Moulding; 5.2.1 Control Unit; 5.2.2 Hydraulic Drive; 5.2.3 Heating and Cooling System; 5.2.4 Mould Unit; 5.2.5 Control of the Machine Run-time; 5.2.6 Setting the Machine Parameters; 5.2.7 Controlling Process Parameters; 5.2.8 Insulation of the Mould; 5.2.9 New Process Design: Longfibre Thermoplastics/In-line Compounding Process Do you know how best to manage and reduce your energy consumption? This book gives comprehensive guidance on effective energy management for organisations in the polymer processing industry. This book is one of three which support the ENERGYWISE Plastics Project eLearning platform for European plastics processors to increase their knowledge and understanding of energy management. Topics covered include: Understanding Energy TECHNOLOGY & ENGINEERING / Chemical & Biochemical bisacsh Plastics industry and trade / Energy conservation fast Plastics industry and trade Energy conservation |
| title | A practical guide to energy management for processors |
| title_auth | A practical guide to energy management for processors |
| title_exact_search | A practical guide to energy management for processors |
| title_full | A practical guide to energy management for processors Energywise |
| title_fullStr | A practical guide to energy management for processors Energywise |
| title_full_unstemmed | A practical guide to energy management for processors Energywise |
| title_short | A practical guide to energy management for processors |
| title_sort | a practical guide to energy management for processors |
| topic | TECHNOLOGY & ENGINEERING / Chemical & Biochemical bisacsh Plastics industry and trade / Energy conservation fast Plastics industry and trade Energy conservation |
| topic_facet | TECHNOLOGY & ENGINEERING / Chemical & Biochemical Plastics industry and trade / Energy conservation Plastics industry and trade Energy conservation |
| url | http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=434406 |
| work_keys_str_mv | AT energywise apracticalguidetoenergymanagementforprocessors |