BSI PD IEC TR 63388:2021:2022 Edition
$189.07
Report on the development of cogeneration
| Published By | Publication Date | Number of Pages |
| BSI | 2022 | 46 |
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 2 | undefined |
| 4 | CONTENTS |
| 6 | FOREWORD |
| 8 | 1 Background 1.1 Task following SMB decision |
| 9 | 1.2 Scope |
| 10 | 1.3 Purpose 2 Terms, definitions and abbreviated terms 2.1 Terms and definitions |
| 12 | 2.2 Abbreviated terms 3 Overview of CHP 3.1 What is CHP? |
| 13 | Figures Figure 1 –CHP based on steam turbine Figure 2 – CHP based on combustion turbine or reciprocating engine |
| 14 | 3.2 Benefits of CHP Figure 3 – Example of energy efficiency for different generating systems |
| 15 | 3.3 Efficiency of CHP system |
| 16 | 4 Market situation of cogeneration 4.1 Global situation 4.2 European situation |
| 17 | 4.3 American situation 4.4 Asian situation |
| 18 | Figure 4 – Proportion of different heating modes in urban areas of northern China Tables Table 1 – Installed capacity of cogeneration units in Japan as of March 2020 |
| 19 | 4.5 Summary 5 CHP based on steam turbine 5.1 General introduction Figure 5 – Cogeneration status in Japan by fuel types |
| 20 | 5.2 Technical characteristics 5.2.1 CHP based on extraction turbine 5.2.2 CHP based on back pressure turbine Figure 6 – Heating system based on extraction steam turbine |
| 21 | 5.2.3 Low-vacuum heating mode Figure 7 – Back pressure turbine heating system |
| 22 | 5.2.4 LP cylinder steam bypassed heating mode Figure 8 – Typical diagram of a low-vacuum heating system |
| 23 | 5.2.5 CHP based on steam turbine with synchro-self-shift clutch Figure 9 –Schematic of LP cylinder steam bypass heating technology |
| 24 | 5.2.6 Special case: gas-steam combined cycle CHP Figure 10 – Heating turbine with synchro-self-shift clutch |
| 25 | 5.3 Components Figure 11 – Schematic diagram of combined cycle unit cogeneration Figure 12 – Typical work flow of CHP system based on steam turbine |
| 26 | 5.4 Requirements |
| 28 | 5.5 Summary 6 CHP based on other processes 6.1 General |
| 29 | 6.2 Technical characteristics 6.2.1 Gas turbine CHP Figure 13 – Energy efficiency comparison between small-scale CHP system and traditional energy services |
| 30 | 6.2.2 Stirling engine CHP Figure 14 – CHP system based on micro gas turbine Figure 15 –CHP system based on STIG |
| 31 | 6.2.3 Fuel cell CHP Figure 16 – Typical Stirling engine CHP unit process |
| 32 | 6.2.4 ORC CHP Figure 17 – Fuel cell CHP system |
| 33 | 6.3 Components Figure 18 – ORC CHP system |
| 34 | 6.4 Requirements |
| 35 | 6.5 Summary 7 Standardization demand of CHP 7.1 Necessity to develop CHP technical standards |
| 36 | 7.2 Current status of ISO/IEC standards related to CHP 7.2.1 General Figure 19 – Link between CHP system and user demands |
| 37 | 7.2.2 CHP system level 7.2.3 CHP communication level 7.2.4 CHP component level |
| 38 | Table 2 – Status of CHP standards |
| 42 | 7.3 Summary 8 CHP standardization roadmap 8.1 Envisaged CHP standard architecture |
| 43 | 8.2 Description of the standard architecture Table 3 – CHP standard architecture |
| 44 | 8.3 Developing the path of future standards 8.3.1 Develop path– Start from system to component level |
| 45 | 8.3.2 Work of joint working group 8.4 Developing committee recommendations 8.5 Summary |
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