Bioszén miscanthusból (kínai nád) (MS-HTC)

Budapest University of Technology and Economics, Department of Applied Biotechnology and Food Science, Environmental Microbiology and Biotechnology Group

Organisation/Data provider's nameBudapest University of Technology and Economics, Department of Applied Biotechnology and Food Science, Environmental Microbiology and Biotechnology Group
Name of contact
Dr. Molnár Mónika, Dr. Feigl Viktória
Telephone/fax
+36-1-4632347
Name of manufacturer/distributor
Max Planck Institute for Colloids and Interfaces
Name of contact
Markus Antonietti
Country
Germany
Relationship to the product
Manufacturer
Biochar nameBioszén miscanthusból (kínai nád) (MS-HTC)
Biochar name in English
Miscanthus biochar (MS-HTC)
Type of data sheet
Characterization of a particular biochar
Main category/sub category
  • Agricultural and forestry waste
  • Straw, used straw, husks and grain dust
Description of raw material

chaffed biomass of grass (Miscanthus giganteus)

Technology classification
Hydrothermal carbonization
Carbonization duration (residence time)
6h
Highest treatment temperature (HTT) (°C)
230
Post treatment
No post treatment performed (pure)
Detailed description of production method

HTC treatment of corncob and miscanthus was performed in a 1 L
steel autoclave (Anton Paar), immersed in water, and then heated at
230 °C for 6 h under autogenous pressure. After cooling, the
autoclaves were opened, and the resultant hydrochar was removed
from the aqueous dispersion by vacuum filtration. The resulting fine
powder was dried at 40 °C.

Assurance provided for that the feedstock does not contain inorganic wastes (plastic, rubber,PCB, etc.), paints or solvents?
yes
Surface area (m2/g)
5.9
Volatile matter content
{ field_szentart }} { field_szentart_dim }}
Fixed carbon content
34.4 m%
Ash content
4.3 m%
Total C content (m%)
62.2
C/N ratio
264
Hydrogen/organic C ratio (H/C ratio)
1.07
Oxygen/organic C ratio (O/C ratio)
0.43
pH
3.9
Cation exchange capacity (CEC) (meq/100 g)
33.8
Would it be suitable for soil reclamation in general?
No information
Would it supply nitrogen, phosphorous and/or potassium to the soil?
No information
Would it supply mesoelements (Ca, Cl, Fe, Mg, Na, S, Si) to the soil?
No information
Would it supply microelements (B, Co, Cu, Mn, Mo, Zn, V) to the soil?
No information
Would it provide sufficient amounts of special nutrients to the soil?
No information
Would it increase the humus/organic matter content of the soil?
Yes
Justification, references

Budai et al. 2015 in prep

Would it suffice as a main component of growing media?
No information
Would it suffice as an additive to growing media?
No information
Would it improve the structure of compacted soil and/or contribute to soil crumb formation of poorly structured soils?
No information
Would it be suitable for physical stabilisation and/or texture improvement of loose, quagmire soils?
No information
Would it be suitable for amending sandy soils?
No information
Would it be suitable for erosion prevention?
No information
Would it be suitable for amending acidic soils?
No information
Would it be suitable for amending saline and sodic soils?
No information
Would it reduce the mobility and availability of the contaminants?
No information
Would it intensify the mobility, availability of the contaminants?
No information
Would it intensify physical, chemical, and/or biological degradation and decomposition of contaminants?
No information
Would it be suitable for production of geotechnical elements?
No information
Datasheet id (original)
1770
Creator
Budai Alice
Status
Verified
Adatlap típusaBiochar
Létrehozás
Módosítás