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PJSC «Southern Kuzbass»
PJSC «Southern Kuzbass»
Steel Production
Steel Production
Steel Production
Steel Production
Thermal Treatment
Thermal Treatment
Ceramics research group
Ceramics research group
Energy Storage and Conversion
Energy Storage and Conversion
Mining machinery
Mining machinery

Description of various technologies in metallurgy to reduce greenhouse gas emissions

1.

1
The work plan
My task includes technology description of various
technologies in metallurgy for GHG emission reduction
in Ukraine and in Europe with allowance different
scenarios.
S.O. Semenko
National Metallurgical Academy of Ukraine
[email protected]
V.I. Shatokha
National Metallurgical Academy of Ukraine
[email protected]

2.

2
Purpose of my research
1. Overall assessment of the state of opportunities to prevent a
climate change.
2. My research presents for spurring deployment of the most
important clean technologies and for overcoming existing barriers.
3. Development of scenarios for the purpose to show variants of
development metallurgy in future with allowance GHG emission
reduction.

3.

The technologies prioritization
3
The price factor
Technologies
Investment cost
Productivity
HIsarna
100
1 Mt/year
Finex
460
2 Mt/year
CCS with BF
107
Blast furnace without
any GHG reductions
technologies
90
0.5-5.0 Mt/year Depends on furnace
volume
0.5-5.0 Mt/year Depends on furnace
volume
Fastmelt
150
1.5 Mt/year
Blast furnace
TGR configuration
100
0.5-5.0 Mt/year Depends on furnace
volume

4.

The technologies prioritization
4
The emission factor
Technologies
Type of raw materials
GHG emission
HIsarna
Char coal, iron ore, scale,
agglomerate.
Char coal, iron ore, scale,
agglomerate, coking coal
iron ore, coking coal,
agglomerate, limestone
iron ore, coking coal,
agglomerate, limestone
With CCS: -0,33 tCO2/t HM
Without CCS: -1.32 tCO2/t HM
With CCS: -0,2313 tCO2/t HM
Without CCS: - 1.864 tCO2/t HM
0,34 tCO2/t HM
Char coal, iron ore, scale,
agglomerate.
iron ore, coking coal,
agglomerate, limestone
With CCS: -0,76 tCO2/t HM
Without CCS – 1,59 tCO2/t HM
With CCS: -0,79 tCO2/t HM
Without CCS – not relevant
Finex
CCS with BF
Blast furnace without
any GHG reductions
technologies
Fastmelt
Blast furnace
TGR configuration
1,742 tCO2/t HM

5.

The initial data

6.

5
First scenario

7.

6

8.

7
Technologies
HIsarna
.
Bf with CCS

9.

8
Structure of existing technologies

10.

9
Development of scenarios
The impact of the war on steel production in different countries.
Steel production before 1 world war
Steel production in Europe
1942-1944

11.

10
Development of scenarios
The impact of the growth of population on
steel production
Steel consumption per capita

12.

11
Calculation of GHG emission in metallurgy
GHG = Ef reducing agent +Ef consump. of fuel +EF energy consump.

13.

12
Formula for calculation

14.

13
Technologies
Emission results
Finex
GHG emission Average 1,61,8 t.Co2/t.
metal
Finex
Hisarna
with CCS
0,25-0,35 Av. 1,3-1,4
t.Co2/t.
t.Co2/t.
metal
metal
Hisarna
with
CCS
0,33-0,5
t.Co2/t.
metal
Blast furnace with
CCS
Av. 0,35-0,43
t.Co2/t. metal

15.

14
The availability of technologies

16.

15
Profit
On the reduced
emissions, will be
obtained certificate,
which could be sold on
exchange

17.

Thank you for your attention
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