| Literature DB >> 31362408 |
Adam Smoliński1, Janusz Karwot2, Jan Bondaruk3, Andrzej Bąk4.
Abstract
This paper aims to analyze the economic feasibility of generating a novel, innovative biofuel-bioenergy-obtained from deposit bio-components by means of a pilot installation of sewage sludge bio-conversion. Fuel produced from sewage sludge biomass bears the potential of being considered a renewable energy source. In the present study, 23 bioconversion cycles were conducted taking into consideration the different contents, types of high carbohydrate additives, moisture content of the mixture as well as the shape of the bed elements. The biofuel was produced using post fermentation sewage sludge for industrial energy and heat generation. Based on the presented research it was concluded that the composite biofuel can be co-combusted with hard coal with the optimal percentage share within the range of 20-30% w/w. Sewage sludge stabilized by means of anaerobic digestion carried out in closed fermentation chambers is the final product. The average values of the CO2, CO, NO, NOx and SO2 concentrations in flue gas from co-combustion of a bioconversion product (20% w/w) and coal were 5.43%, 1903 ppm, 300 ppm, 303 ppm and 179 ppm, respectively. In total, within a period of 4.5 years of the plant operation, 1853 Mg of fuel was produced and successfully co-combusted with coal in a power plant. The research demonstrated that in the waste water treatment sector there exists energy potential in terms of calorific value which translates into tangible benefits both in the context of energy generation as well as environmental protection. Over 700,000 Mg of bio-sewage sludge is generated annually in Poland. According to findings of the study presented in the paper, the proposed solution could give 970,000 Mg of dry mass of biomass qualified as energy biomass replacing fossil fuels.Entities:
Keywords: biofuel; biowaste; co-combustion; new materials for energy industry; thermal utilization; toxic waste
Year: 2019 PMID: 31362408 PMCID: PMC6696038 DOI: 10.3390/ma12152417
Source DB: PubMed Journal: Materials (Basel) ISSN: 1996-1944 Impact factor: 3.623
Physical and chemical parameters of the stabilized sewage sludge.
| No | Parameter | Unit | Mean Value |
|---|---|---|---|
| 1 | pH | - | 10.85 |
| 2 | Dry mass | % | 23.13 |
| 3 | Organic matter content | % dry mass | 45.50 |
| 4 | P content | % dry mass | 1.78 |
| 5 | Ca content | % dry mass | 14.81 |
| 6 | Mg content | % dry mass | 0.55 |
| 7 | ammonium nitrogen content | % dry mass | 0.33 |
| 8 | Total N content | % dry mass | 5.05 |
| 9 | Cd | mg/kg d.m. | 1.06 |
| 10 | Cu | mg/kg d.m. | 179.17 |
| 11 | Ni | mg/kg d.m. | 10.93 |
| 12 | Pb | mg/kg d.m. | 18.83 |
| 13 | Zn | mg/kg d.m. | 504.83 |
| 14 | Hg | mg/kg d.m. | 0.49 |
| 15 | Cr | mg/kg d.m. | 25.70 |
Figure 1The bioconversion installation for sewage sludge conversion to bio-fuel: 1. Container for post-fermentation biomass; 2. Extruder of formed biomass; 3. Electro-actuation of components; 4. Feeder; 5. Microwave device; 6. Reverse conveyor; 7. Reticular conveyors; 8. Tubular radiator; 9. Extraction ventilation channel; 10. Duct fan; 11. Column of conditioning and hygienization of post-conversion gases; 12. Biomass bioconversion reactor; 13. and 14. Control system.
Optimal content of the mixture.
| Ingredient | Share |
|---|---|
| Post-fermentation biomass—stabilized municipal sewage sludge 19 08 05 | 70% |
| Additive 1: Flotoconcentrate—flotation concentrate of hard coal | 10–20% |
| Additive 2: Cellulose lignin | 0–10% |
| Additive 3: Wood sawdust | 0–5% |
| Additive 4: Glycerol bio-phase from the rapeseed oil transesterification process | 4–5% |
| Additive 5: A mixture of bioalcohols as a co-product of alcoholic fermentation | 1% |
Average values of the concentration of emissions during different fuel combustion.
| Fuel | Emission Concentrations | |||||
|---|---|---|---|---|---|---|
| O2 | CO2 | CO | NO | NOx | SO2 | |
| Coal | 13.12 | 6.56 | 1558 | 163 | 162 | 249 |
| Coal + 20% of bioconversion product | 14.44 | 5.43 | 1903 | 300 | 303 | 179 |
Operational costs and mark-up (EUR/Mg of the product).
| Specification | Value |
|---|---|
| Depreciation | 10.38 |
| Materials | 11.06 |
| Energy | 10.85 |
| Salaries | 9.41 |
| Real property tax | 0.59 |
| Equipment costs (repository sites) | 3.84 |
| Maintenance | 1.06 |
| Direct cost of 1 Mg of product | 47.18 |
| Overhead costs mark-up | 4.24 |
| Overall costs mark-up | 5.65 |
| Margin | 5.65 |
| TOTAL | 62.71 |
Profitability of sewage sludge based production of energy biomass.
| Specification | Value (EUR) | EUR/1 Mg of the Final Product |
|---|---|---|
| 1. Transportation savings 5475 Mg (sewage sludge feedstock) 23.53 EUR/Mg | 128,832 | 57.37 |
| 2. Income from the sale of bioconversion product 2245 Mg (production) | 140,784 | 62.71 |
| 3. Production operational costs | 128,126 | 57.06 |
| TOTAL (1 + 2 − 3) | 141,490 | 63.02 |