| 1 | The basic anaerobic process | [1] – s. 1-6, [2] – s. 1-6, [3] – s. 21-22 |
| 2 | Explain sort of raw materials and sources for anaerobic process | [1] – s. 320-341, [3] – s. 73-82, [22] |
| 3 | Anaerobic process conditions: pH, Bicarbonate alkalinity and temperature | [1] – s. 183-218, [2] – s. 7-9, [22] |
| 4 | Anaerobic process conditions: nutrient balance and physical conditions | [1] – s. 183-218, [2] – s. 10-14, [22] |
| 5 | Anaerobic reactors: suspended systems | [1] – s. 173-176, [2] – s. 73-110, [22] |
| 6 | Anaerobic reactors: immobilized systems | [1] – s. 127-170, [2] – s. 123-139, [22] |
| 7 | Anaerobic reactors: solid fermentation systems | [21], [22] |
| 8 | Biofuels and anaerobic production principles | [21], [22] |
| 9 | Calculation for anaerobic process | [2] – s. 174-190, [3] – s. 32-71, [21], [22] |
| 10 | Energy calculation for anaerobic reactors | [3] – s. 73-81, [21], [22] |
| 11 | Technical, sustainable, and economic feasibility for anaerobic process | [21], [22] |
| 12 | Anaerobic technology and climate change | [21], [22] |
| 13 | Sample problems and solving | |
| 14 | Overall assessment | |