Gasification Theory - Biomass Gasification, Pyrolysis and Torrefaction

Biomedical Engineering Reference

In-Depth Information

Heat required for endothermic reaction per mol of C

131 kJ/mol

5

Heat required for drying

0.5

131

65.5 kJ

5

3

5

Total heat required

131

65.5

196.5 kJ.

5

1

5

If p moles of carbon participate in the exothermic reaction, R4:

pC

0

:

5pO 2

-

pCO

111p

(ii)

1

2

Then, we have 111p

1.77.

Adding reactions (i) and (ii) , we get the net reaction:

2

196.5 or p

5

:

77C

H 2 O

0

:

88O 2

-

1

:

77CO

H 2

1

Thus,

for (2.77

3

12) kg of carbon, we need (2

1

16) kg of steam and

(0.88

32) kg of oxygen. If we add more oxygen, the combustion reaction, R5,

may take place and the temperature of the combustion zone may rise further.

3

7.3.5 Catalytic Gasification

Use of catalysts in the thermochemical conversion of biomass may not be

essential, but it can help under certain circumstances. Two main motivations

for catalyst's use are as follows:

1. Removal of tar from the product gas, especially if the downstream appli-

cation or the installed equipment cannot tolerate it (see Chapter 6 for

more details).

2. Reduction in methane content of the product gas, particularly when it is

to be used as syngas (CO, H 2 mixture).

The development of catalytic gasification is driven by the need for tar

reforming. When the product gas passes over the catalyst particles, the tar or

condensable hydrocarbon can be reformed on the catalyst surface with either

steam or carbon dioxide, thus producing additional hydrogen and carbon

monoxide. The reactions may be written in simple form as:

Steam reforming reaction:

catalyst

C n H m 1

nH 2 O

!

ð

n

m

=

2

Þ

H 2 1

nCO

(7.20)

1

Carbon dioxide (or dry) reforming reaction:

catalyst

C n H m 1

nCO 2 !

2nCO

1 ð

m

=

2

Þ

H 2

(7.21)

As we can see, instead of undesirable tar or soot, we get additional fuel

gases through the catalytic tar-reforming reactions ( Eq. (7.20) ). Both gas

yield and the heating value of the product gas improve.

The other option for tar removal is thermal cracking, but it requires high

( . 1100 C) temperature and produces soot; thus, it cannot harness the lost

energy in tar hydrocarbon.

Biomass Gasification, Pyrolysis and Torrefaction

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