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July 18th, 2016
1
Technological Breakthrough of Efficient and Clean Utilization of
Resources
Company Profile
Background of Technological Innovation
Core Technology
Practice and Implementations
Prospects
2
Titles◎ Director of EMCA
◎ Deputy Director of China Association of Circular Economy
◎ Deputy DG of Coal Chemical Association in CFCIF
◎ Member of Entrepreneur Advisory Committee of Zhongguancun National Innovation Model Park
◎ Vice Chairman of Beijing Thermal Physics & Energy Engineering Insititute
◎ Vice Chairman of BMES
◎ Vice Chairman of Beijing Industrial Furnace Institute;
◎ Member of International commission of Asia-Pacific region combustion and energy utilization
◎ Vice Chairman of Energy Efficiency & Investment Appraisal Committee of CERS
◎ Member of 11th and 12th Beijing Committee of CPPCC
◎ Top 100 Social Entrepreneur to Change the World Selected by Newsweek in 2007
Dr. Wu Daohong
Education■ Bachelor’s degree in solid-propellant rocket engine, National University of Defense Technology, 1984-1988
■ Master’s degree in liquid-propellant rocket engine, National University of Defense Technology, 1988-1991
■ Doctor’s degree in aero-engine, Beijing University of Aeronautics & Astronautics, 1991-1994
■ Post-doctor research in Heavy oil processing, China university of Petroleum, 1994-1995
■ In 1996, established Beijing Shenwu Nozzle Technology Co., Ltd, the former Beijing Shenwu Thermal Energy Technology Co., Ltd.
3
Chemical
Industries
Furnace &
Kiln
Industries
Metallurgical
Industries
Engineering
Consulting
Energy
Efficient
Low Emission
Comprehen
sive
Utilization
Of
Resources
■ 9 Subsidiaries (2 Public Listed)
■ 3700 Employees
■ Total Asset: 12.4 Billion RMB
■ Contract Value 2015: 12.6 Billion
■ 1400 PatentsClass-A Qualifications
Our Missions
4
5
• “2012 China Top 20 Clean Technology Enterprises” issued by Deloitte on Dec.06, 2012
Rank 1st
• “2013 China Top 100 ESCOs” issued by “Eco Forum Global Guiyang” on Jul. 2013
Rank 2nd
• “ 2014 China Top 200 Science & Technology Innovation Demonstration Enterprises” appraised by MIIT, MOST and MOF
Rank 1st
Burner type regenerative combustion technology invented firstly in China.
14
Beijing ShenwuNozzle Technology Co., Ltd established in Z-park.
1995 ShenwuIndustrial Park (land area: 60 mu) in Changpinginvesting RMB 100 million.
1999 Acquire HFEC and get access to the petrochemical energy-saving market
2005 Acquire JSMDI Hubei Shenwu Co (core energy-saving equipment manufacture center with an investment of RMB 300 million.
2007 Shenwuenergy conservation and atmospheric haze control lab (land area: 100 mu) constructed with an investment of RMB 500 million.
2009 Strategic investor introduced, privatization completed.Reorganization complete, group management frame founded Shareholder established
201095
10
0507 09
99 04
2004
2014
Implementati
on of the
business model
transformation
Mergerlisted Co Tianli Group(Stock code 300156) Merger listed JingchengCo,.ltd (Stock code 000820)
6
7
0
20
40
60
80
100
2015 2020 2030 2050
Forecast of Total Energy Demand in China
Standard Coal: 100 million ton
48
43
63
53
Unit:Year
8
Global China
Petroleum Natural Gas Coal
52
16
54
40
110
217
Price will rise!
China and Global Fossil Energy Consumption Time Limit
Unit:Year
9
2015 2030
Solar Power(100 million KW)
0.5 3.5
Wind power
(100 million KW)
1.3 4.5
Hydro power(100 million KW)
3.0 4.5
Nuclear power(100 million KW)
0.2 1.4
5.4 6.6
Coal(100 million t)
39.5 36.1
Natural gas(100 million m3 )
1932 4800
By the year of 2030, total installed capacity of new energy will reach 1.44 billion kw. However, the capacity of new energy can only replace 1.16 billion tons of coal, taking 22% of the total energy consumption.
22%By the end of 2015,China has invested5,300 billion RMB inthe development ofnew energy, taking11.2% of the totalenergy consumption.
11.2%
Prediction
by
Chinese
Government
Prospect Forecast of Renewable Energy in China
Petroleum
(100 million t)
10
Higher Costs of New Energy
0
1
2
3
4
Coal Wind Nuclear Solar
Costs of Power Generation
New energy industries will still
rely on government subsidies for
a very long period of time.
There is no future for industries
relying on government subsidies.
11
IN THE COMING
30 YEARS,
NEW ENERGY
COULD BE USED
AS SUPPLEMENT,
BUT NOT AS THE
MAJOR FORCE.”
“
55
5757
5859
61
68
71
50
58
67
75
2010 2011 2012 2013 2014 2015 2020 2030
11.7
21.6
26.1
30.031.7
32.7
37.2
40.0
0
20
40
60
2010 2011 2012 2013 2014 2015 2020 2030
Degree of Dependence
on Foreign Petroleum
Degree of Dependence
on Foreign Natural Gas
1. National energy
supply security
has been
threatened due to
high degree of
dependence on
foreign supply.
2. Compared to the
price of coal,
petroleum is still
expensive for
Chinese
enterprises and
people, even
though global
petroleum price
has fallen by
nearly 70%.
(%) (%)
13
“Therefore, Coal is still necessary
for China's development!”
Current excess of energy doesn't mean excess of energy in the
future.
Downturn of coal industry is an issue of recession, not an issue
of cutting excessive industrial capacity.
14
27.8%
Fuel coal (Civil and
industrial)
22.5%
Raw coal (Metallurgy, Non-
ferrous, chemical industries)
49.7%
China's total coal consumption in 2015
3.95 billion tons
Fuel coal (thermal
power)
15
Present pollution situation
caused by coal firing:
Haze90%
67% 70%
40%
70%
0%
20%
40%
60%
80%
100%
二氧化硫 氮氧化物 尘烟 大气汞 二氧化碳SO2 NOx Dust Atmospheric mercury CO2
16
First-generation
Second-generation
Third-generation
• Chamber heat utilization ratio<55%
• Chamber heat utilization ratio<65 %• System heat utilization ratio < 93%
• Chamber heat utilization ratio ≥ 86%• System heat utilization ratio ≥94%
Advantage of the third-generation technology• Heat utilization ratio of various
reactors improved;• Reaction temperature of various
reactors increased ;• High fuel grade and quality no
longer required;• Low-carbon and low-nitrogen
combustion achieved; • Emission well controlled.
Furnace Without Utilizing Waste Heat
Ambient Air
Fuel
BurnerTemp. 1200˚c
Flue Duct
Flue Gas 1000˚C
FuelBurner
Temp. 1200˚c
Furnace Installed With Air Pre-heater
Pre-heated Air: 500˚C
Flue Duct
Normal Temp. Air
Flue Gas 1000˚C
Flue Gas 500˚C
Blower
Reversing Cycle s Oil/Gas Oil/Gas
OpenClose
Temp.: 1280˚c
Normal Temp. Air
Reversing Valve
Normal Temp. Air Blower
Burner A Burner B
ID Fan
Flue Duct
Cold Flue Gas < 150℃
Principle Of HTAC Technology
Hot Flue Gas
1280˚c
17
Reversing Cycle sOil/Gas Oil/Gas
OpenClose
Temp.: 1280˚c
Normal Temp. Air
Reversing Valve
Normal Temp. Air Blower
Burner A Burner B
ID Fan
Flue Duct
Cold Flue Gas < 150℃
Principle of HTAC Technology
Hot Flue Gas1280˚c
The 3rd-generation Combustion Technology-Shenwu HTAC Technology
18
Ceramic honeycomb is widely used in regenerative metallurgical furnace to recover
the heat in flue gas above 1000℃ and to lower the flue gas temperature to120℃.
Key Material - Ceramic Honeycomb
Features:
Larger Specific Surface Area
Bigger Heat Capacity
Better Heat Stability
Lower Thermal Expansion
Stronger Corrosion Resistance
Wear Resistance
Lighter Weight
Lower Cost19
20
Shenwu’s SCR catalysts and ceramic honeycomb production workshop
Shenwu Energy-saving & Atmospheric Haze Control Technology Lab
Rotating Bed Rotary Hearth Furnace Pulverized Coal Gasifier
21
22
Dr. Wu Daohong was met by Premier Li Keqiang as postdoctoral youth representative of innovative talent on 30th Nov 2015.
23
Dr. Wu Daohong presented the topic on “Low Carbon TechnologyInnovation Drives Carbon Trading" and "Green & Low CarbonDevelopment by Joining Financing and Industry" in Paris ClimateChange Submit in OCT 2015 as EMCA Director, and it was wellrecognized.
In March 2015, China National Coal Association (CNCA), China ElectricPower Planning & Design General Institute and National “Thirteenth FiveYear’s Plan” energy strategy planning drafting team visited and gaveguidance to Shenwu.
25
In March 2015, Ministry of Industry and Information Technology, and Ministry of
Finance of China, jointly issued an “Action Plan (2015-2020) of Efficient and
Clean Utilization of Coal”, recommending 21 technologies, among which three
belonging to Shenwu:
• New Regenerative Calcium Carbide Production Process
• Low Grade Coal Upgrading Technology
• Technology of Producing SNG with No-recycle Two Stage Methanation 26
National Energy Administration Doc.No.141, 27th April 2015:Main task and objective:Coal clean & efficient utilization, new power generation unit are not allowed to exceed 300 g coal consumption, coal for power generation shall account for 60% of total coal consumption, boosting coal quality-based utilization and etc.Key work:(5) Carry out coal quality-based and class-based utilization, and improving comprehensive utilization efficiency of coal resource.Encouraging R&D and demonstration of low grade coal upgrading technologies. And carrying out demonstration of coal processing plant which equipped with megaton annual production capacity via low temperature carbonization process to produce gas and oil as main product, and hereby boosting the improvement of national coal quality-based utilization and upgrading level.Gradually achieving the new utilization method of coal based on quality-based & class-based, energy-chemical integrated and cogeneration. Encouraging coal – chemical – electricity – heat integrative development, and strengthen integration and coupling of each system. Boosting coupling development of chemical engineering with industries such as power generation, oil & gas chemical engineering, steel, building materials in the areas where applicable, and then achieve cyclic utilization of material and gradient utilization of energy and lower production cost, energy consumption and pollution.In 2017, key technology of low grade coal quality-based upgrading shall achieve break through; In 2020, a number of megaton quality-based upgrading demonstration project shall be completed.
27
Regenerative High Temperature Air Combustion Technology,
Regenerative High Temperature Chemical Reaction Technology
Non-ferrous Metal
Machinery Manufacture
Oil Refining Chemical, Petrochemical, Coal Chemical
Building Materials (Ceramic, Glass)
Iron & Steel, Metallurgy
Solid Wastes Comprehensive
Treatment
Industrial, Civil, Thermal Power
Generation Boilers
Application Fields of Shenwu Core Technology
28
The regenerative furnaces and boilers are currently being promoted in steel making,non-ferrous metal, mechanical, petrochemical and civil and industrial boiler industries.So far, Shenwu has provided more than 800 large regenerative furnaces and boilers athome and abroad, with average energy saving over 20%.
Since HTAC is adopted by Chinesemetallurgical enterprises, energyconsumption in steel rolling andheat treatment is lower than thoseabroad by more than 20%.
Continuous Casting
Regenerative Heat Treatment Furnace
ContinuousRolling
Rod / PlateStrip / Pipe
Regenerative Heating Furnace
Coking Coal
Iron Ore
Coking
Sintering
BF Converter / EF
MoltenSteel
Iron-making Steelmaking
Molten Iron
Steel Rolling Heat Treatment
Ingot
Deep Processing
29
Russia
China
India
Australia
Nigeria
Indonesia
PhilippinesLaos Vietnam
Poland
Sweden
Ukraine
Iran
Mongolia
30
1. Regenerative Low-grade Pulverized Coal Gasification Boiler technology, which
can completely solve the pollution problem of small and medium coal-fired boiler;
2. New thermal power generation process combining Pulverized Coal Rapid Pyrolysis
with energy saving and denitration, which not only produces a large amount of by-
products like artificial natural gas and artificial petroleum, but improves the efficiency of
thermal boiler by 3%-8%;
3. New Efficient and Clean RHF Smelting Process for Low-Grade Ferrous Metal
Ores and Non-Ferrous Metal Ores, it can relieve the situation that the quality ores in
China heavily rely on import;
4. New high-efficiency and low-carbon Iron-making Process with Hydrogen Shaft
Furnace. It solves the high energy consumption and high pollution problems from blast
furnace iron-making;
5. New Pyrolyzing and Upgrading Process for Lignite and Long-flame Coal, which
relieves the situation that the supply of petroleum and natural gas in China heavily relies
on import;
6. New process for changing MSW, Biomass, Waste Tires and Sludge to Resources;
7. New Coal-to-Acetylene process.
31
1. Low-rank Pulverized-coal Gasification Regenerative Boiler
(1) By 2012, there were more than 499,000 industrial coal-fired boilers and more than 1.26 million civil boilers with capacity below 20t.
(2) As required by Energy Saving and Emission Reduction Action Plan, China will eliminate 160,000 coal-fired industrial boilers with capacity of below 35t by 2017.
(3) By 2017, 40,000 boilers in Beijing, Tianjin and Hebei are being phased out.
The coal-fired industrial and civil boilers generate large amount of dust and SO2, which is thesecond largest SO2 emission source in China.
To prohibit raw coal direct combustion and phase out small boilers is the simplest and mosteffective practice to control the pollution of NOX and SO2.
Current status of industrial and civil coal-firing boiler
32
Production Process of Coal Gas
PurificationGas Storage
Raw CoalCoal Bunker
Conveying & Feeding
Gasification
Crushing & Screening
1. Low-rank Pulverized-coal Gasification Regenerative Boiler
• Household Heating by Coal to Gas
USING COAL, NO BURNING
Cheap Low-grade Pulverized Coal
Regenerative Boiler
Clean Gas
No Emission like NOx, SOx, PM2.5
Whole Production Process
Double Fluidized-bed Gasification Technology
Clean Heating
Supply by Coal-gas
1. Low-rank Pulverized-coal Gasification Regenerative Boiler
34
high-quality
coal
lump
coalFume> 130 ℃
grate
boilerdesulfurization & denitrification
Fume
emission
(Coal
standard)
powdered
coalFume> 130 ℃
powdered
coal boiler
desulfurization
& denitrification
Fume
emission
(Coal
standard)
(comprehensive energy efficiency <70%)
(comprehensive energy efficiency <80%)
Low- and
midium-grade
coal
coal
powder
double-bed coal
gasification
(energy efficiency<90%)
Gas-fired condensing
& denitration boiler
(energy efficiency<102%)
Fume emission
(Natural gas
standard) >60℃
Gas purifying
de-dustingSulphur
Shenwu Regenerative Boiler
Conventional coal-
fired boiler
(comprehensive energy efficiency <91.8%)
35
1. Low-rank Pulverized-coal Gasification Regenerative Boiler
Installed in Beijing Thermos Flask Factory Installed in Air Force Residence Area
Industrialization Cases
Has been successfully implemented in air force residence area, Beijing thermos flask factory, Beijing Shouhua Construction & Operating Co.,Ltd and etc.
1. Low-rank Pulverized-coal Gasification Regenerative Boiler
36
2. Shenwu Pulverized Coal Rapid Pyrolysis Coupling Energy Saving & De-NOxIntegrated Technical Process for Thermal Power Generation
现 状
Low
grade
coal
Shenwu
Rapid
Pyrolysis
Artificial Gas and Oil
(20-30%)
Coal clean
generation
(Integrated De-NOx
& Energy-saving)
Upgraded Coal
(60-80%)
Prospect:
In 2014, the total consumption of thermal power generating industry of
China has reached nearly 2 billion tons of steam coal, in case of applying
Shenwu Rapid Pyrolysis equipment before feeding the coal to combustion
for generating, the thermal power generating industry of China is able to
produce at least 0.14 billion tons of petroleum and 200 billion m3 natural gas
for the nation.37
3t/h Pilot Platform Test Research
Using pilot
platform to get
through technical
process:
Including:
material pre-
processing
system, feeding
system, rapid
pyrolysis process
parameter, oil &
gas purifying and
recovery system,
slag discharging
system and etc.
2. Shenwu Pulverized Coal Rapid Pyrolysis Coupling Energy Saving & De-NOxIntegrated Technical Process for Thermal Power Generation
38
Process Flow for Pulverized Coal Fast Pyrolysis Combined Circulating Fluidized Bed Power Generation
2. Shenwu Pulverized Coal Rapid Pyrolysis Coupling Energy Saving & De-NOxIntegrated Technical Process for Thermal Power Generation
39
Shenwu RHF Iron-making
Process
Advantages
1. No equipment is used causing high energy
consuming and pollution like coking
furnace, sintering furnace and blast
furnace. Raw material can be normal coal,
coke and coking coal are not required.
2. The reduction temperature is 1250℃,
lower than 1500℃ for blast furnace,
significantly lowered energy consumption.
3. Blast furnace requires high grade ores
(>60% Fe), while RHF is applicable to low
grade refractory ores, composite
paragenetic & associated iron ores as well
as metallurgical slag.
3. Direct Reduction via RHF for Low Grade Ferrous and Nonferrous Ore
Carbon-bearing Pellet
Regenerative RHF Reduction
Grinding & Magnetic
Separation
Smelting & Separation
via EF
Smelting & Separation via
Gas Smelter
NuggetBriquette
IronMolten Iron Molten Iron
CoalRefractory Iron Ore Or
Composite Paragenetic & Associated Iron Ore
40
►Recognition of scientific and technological achievements
41
3. Direct Reduction via RHF for Low Grade Ferrous and Nonferrous Ore
The equipment operability
has reached 92.5% at 85%
metallization rate
Innovation points are
large-sized equipment
and HTAC technology
Shenwu makes
breakthrough on core
technology, WORLD
LEADING LEVEL.
No. Name of Projects Status
1 70,000 t/y V-Ti iron ore direct reduction project for Sichuan Lomon Group Completed
2 100,000 t/y V-Ti iron ore direct reduction project for Pansteel Completed
3 800,000 t/y direct reduction ironmaking project for Rockcheck Completed
4 300,000 t/y metallurgical dust direct reduction project for Jiangsu Sha Gang Group Completed
5Indonesia customer: PT. TITAN MINERAL UTAMA (TITAN) Signing the design contract for 2.4Mt (80,000 t/y X3) lateritic nickel ore treatment; Signing the EPC contract for 2.4Mt (80,000 t/y X3) lateritic nickel ore treatment (PC)
Under Construction
6Indonesia customer:PT. BALINTON RESOURCES INVESTMENT(BALINTON) Signing the design contract for 2.4Mt (80,000 t/y X3) lateritic nickel ore treatment; Signing the EPC contract for 2.4Mt (80,000 t/y X3) lateritic nickel ore treatment (PC)
Under Construction
3. Direct Reduction via RHF for Low Grade Ferrous and Nonferrous Ore
42
Blast Furnace
• Energy consumption
510 kgce/ton iron;
• Major source of
atmospheric haze
Shenwu Shaft Furnace
• Energy consumption
430 kgce/ton iron;
• Atmospheric haze is
reduced by above 90%.
Coking Coal
Imported Iron Ore
Coking
Sintering
Blast Furnace
Molten Iron
4. Hydrogen Shaft Furnace Direct Reduction Iron-making
Hot Metal
Coking Coal
Hydrogen Shaft
Furnace
Dehydration
Decarbu-rization
Reheating Furnace
H2 + Co
CO2 Zero Emission
Imported Iron Ore
CoalGasification
Low Grade Iron Ore
Normal Coal
43
1. Reducing agent comes from normal coal, NG, COG or gas, no high energy consumption and pollution process such as coking, sintering and blast furnace;
2. Compared with blast furnace, processing energy consumption and CO2 emission is reduced by above 30%, CO2
zero emission can be realized, SOX, NOX and PM2.5 are reduced by above 90%;
3. The product is irreplaceable raw material for high quality steel, special steel and senior castings and forgings;
4. The unit can reach above 2 Mt/y;
5. Low grade ore (40-60% Fe) can be used, which the situation relied on import of high quality ores will be relieved.
Hydrogen SF Pilot Unit
H2 + Co
Fuel
HBI Or HDRI
Steelmaking
Regenerative Reheating Furnace
Large Low Pressure Coal Gasification
CoalNG, COG,
Pyrogenous, Coal Gas, Gas
Catalytic Conversion
Shenwu SF Process
Decarbu-rization
Dehydration Lump Ore or Pellet
4. Hydrogen Shaft Furnace Direct Reduction Iron-making
44
Project Status Remark
0.5 Mtpy COG based SF DRI Project Of Shanxi Taihang Mining Co., Ltd
UnderConstruction
The World 1st COG Based Shaft Furnace
2 Mtpy CG Based SF V-Ti Extracting Project Of Jiangsu Lianyungang Shensheng Co.
About to Construction
The World 1st CG Based Shaft Furnace
2 Mtpy Hydrogen SF V-Ti Ore Comprehensive Utilization Project
About to Construction
The World 1st Hydrogen Shaft Furnace For V-Ti Comprehensive Utilization
4. Hydrogen Shaft Furnace Direct Reduction Iron-making
45
• Artificial oil and artificial natural gas can be a supplementary. World problem in coal upgrading and utilization can be resolved;
• Unit capacity is over 1 Mt/y, 5 times of conventional;
• Over 20% of oil and gas can be extracted from a ton of coal;
• Energy conversion efficiency can reach 90%;
• Less water consumption (<0.15T/T coal).
Shenwu Pilot Test Facility
Coal Downstream
Process
Conversion
Efficiency
Coal to Electricity 38%
Gasification 60%
Synthesis Ammonia 48%
Direct Liquefaction 57%
Indirect Liquefaction 42%
Coal to Olefin 40%
Shenwu Pyrolysis
Process90%
Comparison of Coal Utilize Efficiency
5. Pyrolysis and Upgrading of Lignite, Long Flame Coal and Oil Shale
Coal or Oil Shale
Crushing, Screening
10-100mmCoal
DryingRegenerativeRotating Bed
Briquetting
Retorting Gas
Upgrading Coal
Cooling
Artificial Oil
Artificial NG
Shenwu Low-medium Rank Coal Pyrolysis Process
46
5. Pyrolysis and Upgrading of Lignite, Long Flame Coal and Oil Shale
47
Appraisal by National Bureau of Energy
Demonstration Plant Under Construction
International Advanced Level
Inner Mongolia Xinrui Coal Chemical Co., Ltd 1 Mt/y Lignite Pyrolysis Line
Inner Mongolia Shengwo Energy & Chemical Co., Ltd
2×400,000 t/y Long Flame Coal Pyrolysis Line
Inner Mongolia Gangyuan Coal Chemical Group 350,000 t/y Lignite Pyrolysis Line
Shijiazhuang Xuyue Chemical Group 800,000 Long Flame Coal Pyrolysis Line
Shanxi Xiangkuang Group 1,000,000 t/y Long Flame Coal Pyrolysis Plants
5. Pyrolysis and Upgrading of Lignite, Long Flame Coal and Oil Shale
48
Reduction Harmless Recycle
6. MSW, Biomass and Waste Tires into Resources with Rotating Bed
49
6. MSW, Biomass and Waste Tires into Resources with Rotating Bed
Unit capacity is 30-1500 tpd and suits local and centralized treatment;
No DIOXIN or acid gas produced, relieve the air pollution from combustion;
High conversion efficiency of 80%, which is 3 times of power generation;
Purified and high CV of gas and oil can be used as clean fuel and can be used as high quality chemical material.
50
Atmospheric Pollutants Emission Indexes
S.N.Pollutant
descriptionUnit Numerical meaning
National domestic
waste incineration air
pollutants emission
standard
GB18485-2014
Boiler air
pollutants
emission
standard
Beijing
EU standard
EU2000/76/EC
Shenwu waste
pyrolysis
emission
standard
1 Dust mg/m3 Daily average value 20 5 10 5
2 HCl mg/m3 Daily average value 50 - 10 -
3 HF mg/m3 Daily average value - - 1 -
4 SOx mg/m3 Daily average value 80 10 50 10
5 NOx mg/m3 Daily average value 250 80 200 80
6 TOC mg/m3 Daily average value - - 10 -
7 CO mg/m3 Daily average value 80 - 50 -
8 Hg mg/m3 Measured average
value0.05 - 0.05 -
9 Cd+TI mg/m3 Measured average
value0.1
-0.05 -
10
Pb+Cr and
other heavy
metals
mg/m3 Measured average
value1.0 - 0.5 -
11Diopxinlike
chemicals
ng
TEQ/m3
Measured average
value0.1 - 0.1 -
6. MSW, Biomass and Waste Tires into Resources with Rotating Bed
51
Heibei Bazhou Changlong Co. Ltd.
(200t/d wastes pyrolysis project)
Regenerative Rotate
Bed Reaction System
Regenerative Rotate Bed
Reaction System
Waste Pre-processing System Oil & Gas Purification and
Storage System
Central Control Room
52
6. MSW, Biomass and Waste Tires into Resources with Rotating Bed
Office Building
Heibei Bazhou Changlong Co. Ltd.
(200t/d wastes pyrolysis project)
53
6. MSW, Biomass and Waste Tires into Resources with Rotating Bed
• Low energy consumption;• Lower cost;• Added value can be
improved
7. New Coal-to-Acetylene Process
• High energy consumption;• High cost;• Low economic efficiency
Shenwu New Process Of CaC2 Production
Conventional Calcium Carbide Production Process
Lime Kiln
Crushing
Storage
CaC2
High Quality Lump Coal
Limestone
Semi-coke
Calcium Carbide Furnace
Artificial NG
Solid Products
CaC2 FurnaceCaC2
Heat Carrier Free Rotating Bed
Coke
Limestone
Low-rank Coal
Powder
Lump
Artificial Petroleum
54
Inner Mongolia Gang Yuan Chemical Engineering Gas Kiln
Oil & Gas Separation System Pre-heat Reactor System
7. New Coal-to-Acetylene Process
Coal
Acetylene Downstream
Methanol Synthesis
C2H2
CH4
CO+H2
Oil & Gas
Calcium Carbide
Tech
Oil Refining
Gas Fuel & Hydrogen Production
• Household gas• For hydrogen production• IGCC generate electricity
• Athylene
• Athylene downstream
• Methanol/Acetic acid / MTBE and more than 200 derivatives
• Pharmaceutical/pesticide/ solvent
• MTP/MTO substitute• DME substitute• Petrol substitute
• Petrol/Diesel/Kerosine/LPG• Olefin/Alcohol chemicals
Limestone
Electricity
Hydrogen SF Iron Making
• Ferrous metal (Fe, Mn, Cr)• Non-ferrous metal (extracting
Cu, Zn, Pb, Sn, Ni etc)
SNG • For civil use, industrial gas fuel
7. New Coal-to-Acetylene Process
55
Projects Status Remark
0.4 Mt/Y Calcium Carbide Production Line in
Coal Chemical Company in Gangyuan Inner
Mongolia
Operating
The world 1st regenerative
high-temp calcium carbide
reference line, downstream
production SNG 0.1 billion
m³/y
1.2 Mt/Y Calcium Carbide Production Line in
Shengwo Energy Company in Xinjiang
Under
Construction
Downstream production
0.2 Mt/y BDO production line
0.4 Mt/Y Calcium Carbide Production Line Of
Xinrui Coal Chemical Company in Inner
Mongolia
EngineeringDownstream production
SNG 0.1 billion m³/y
7. New Coal-to-Acetylene Process
57
For national prosperity and safety;
For people, enterprise and national interest;
Clean and high efficient utilization technology of coal has been developed;
Coal resource is rich where massive low-cost petroleum, natural gas and gasoline and diesel oil can be produced;
“More utilization and less burning” is encouraged;
The situation that over reliance on import of top 5 basic raw material such as petroleum (59%), iron ore (75%), NG (35%), ethylene (40%) and ethylene glycol (70%) will be changed.
China should not rely on imported neither petroleum and natural
gas, nor solar and wind power.
In the coming 30 years, coal will be the key energy in China.
58
READY OR NOT,
A NEW ERA OF
ENERGY &
INDUSTRIAL
REVOLUTION
HAS COME!”
“
Contact:
Liu Feng - Dy. Director of International Business Dept., Shenwu Group
Mob: +86 135 0116 3493
Email: [email protected]
THANK YOU!