research on co2 reduction in russian coal-fired thermal power
TRANSCRIPT
ELECTRIC POWER DEVELOPMENT CO.
Lessons learnt from Selected Projects to Promote Transfer of Mitigation
Technologies Asia and the pacific Regional Workshop on Transfer
of Technology as referred to Decision 4/CP.4
17th January 2000Tadahisa Miyasaka
Electric Power Development CO.,Ltd
ELECTRIC POWER DEVELOPMENT CO.
Efforts to Reduce CO2 emission (1)
SUPPLY SIDE
Increased use of nonfossile energies
Optimal Configuration ofpower sources
Development of Naturalenergy sources
Efficiency improvement ofthermal power generation
Increased efficiency ofsupply-side facilities
Increasing nuclear share
Geothermal, Photoboltaic,wind
Combined cycle generation andEfficiency improvement ofThermal generation
Reduction of transmission& distribution loss
High Voltage transmission
ELECTRIC POWER DEVELOPMENT CO.
Efforts to Reduce CO2 emission (2)
DEMAND SIDE
Energy Conservation
PR activities aimed atenergy conservation
Development and diffusionof highly efficient and
energy-saving appliances
Enhanced utilization ofuntapped energy sources
Heat recovery from river water, waste incineration facilities
ELECTRIC POWER DEVELOPMENT CO.
4
Activities concerning power sector supported by NEDO in 1998
Totally 37 projects among 9 countries 20 Power sector projects included
Natural gas pipeline system optimization in Russia PCF power plants reconstruction to natural gas in Russia Power plants reconstruction to gas combined cycle system in
Russia and Poland PCF power plants renovation and reconstruction in Russia Gas-fired power plants reconstruction to combined cycle system
in Russia and Myanmar PCF power plants renovation and reconstruction in Russia
ELECTRIC POWER DEVELOPMENT CO.
Projects
Feasibility Studies for CO2 Reduction from coal-fired thermal power plants in RussiaRussia..
Feasibility Studies for CO2 Reduction from coal-fired thermal Power Plants in ChinaChina..
ELECTRIC POWER DEVELOPMENT CO.
Finding the most economical and effective measure to reduce CO2 emission from coal-fired power plants.
Considering electric power system and energy demand and supply structure.
Finding promising projects related to coal-fired power stations which are appropriate for Joint Implementation between RussiaRussia and Japan in the future
Finding a feasible program to be carried out through Japan’s CDM with ChinaChina.
Purpose
ELECTRIC POWER DEVELOPMENT CO.
Issues to be studied in RussiaRussia.
[1] General Study of profile of object country. [2] Macro analysis of power system in the Far Ea
stern regions of Russia and Siberia.[3] Case Studies for 9 individual coal-fired therm
al Power stations.
ELECTRIC POWER DEVELOPMENT CO.
Issues to be studied in ChinaChina.
[1] General Study of profile of object country.[2] General Study of existing 300MW coal-fir
ed power plant units.[3] On Site Study of 3 PCF power plants.
ELECTRIC POWER DEVELOPMENT CO.
[2] Macro analysis of Power System in the Far Eastern Regions of Russia and Siberia
Identify the cost cost effectiveness. Macro analysis of the power-system has
been carried out to study the effect of the CO2 emission reduction projects targeting all coal-fired thermal power plants connected to the grid.
ELECTRIC POWER DEVELOPMENT CO.
[2] Prospective Power StationsFor Case Studies.
Far Eastern Regions Amrusk CCP-1 Khabalovsk CCP-1 Blgagove-schensk CCP Partizansk CCP
Siberian Region Irkutsk CCP-6 Krasnoyarsk CCP-1 Novo-Kemerovo CCP Irkutsk CCP-10 Irkutsk CCP-11
ELECTRIC POWER DEVELOPMENT CO.
[3] Case Studies for 9 Individual Coal-fired Thermal Power Stations
Serving as preliminary F.S. for 9 power stations to be considered as candidate for promising project(s) for future Joint Implementation.
ELECTRIC POWER DEVELOPMENT CO.
[3] Case Studies for 9 Individual Coal-fired Thermal Power Stations
Study through site-visit and questionnaire (1) Dorogobuzh PS (2) Reftinskaya (3) Troitskaya (4) Novo-Irkutsk (5) Petropavlovsk Kamchatsky
Study through questionaire (6) Cherepetskaya (7) Ulan-ude (8) Verkhnetagilska (9) Bogoslovskaya
ELECTRIC POWER DEVELOPMENT CO.
[3]Efficiency Improvement Measures Replace - Replace-1; Replace coal-fired plants to GTCC plants. - Replace-2; Replace units to USC-PCF. Convert -Convert ;Convert the boilers to use natural gas. Evaluation of cost effectiveness was done by 30yeras on replace and
15years on covert.
ELECTRIC POWER DEVELOPMENT CO.
[3] Prospective power plants for F.S.
reduction amount & method cost effective
order Dorogobuzh replace-1
(coal & gas) 658.4kt-co2/y 3rd Troitsk replace-1 & convert
(coal) 6,535kt-co2/y 1st Cherepet replace-1 & 2
(coal) 4,834kt-co2/y 2nd
ELECTRIC POWER DEVELOPMENT CO.
[2] General Study of Existing 300MW Coal-fired Power Plant Units.
100 300MW class coal-fired power plants. (20% of coal-fired power plants.)(1) 75% are made of China.(2) Low thermal efficiency and fall short of de
signed performance.(3) Reliability of plant facilities are low.
ELECTRIC POWER DEVELOPMENT CO.
[3] On Site Study of 3 PCF Power Plants. Zhouxian (300MW× 4; Shandong province) Louhe(300MW×2 ; Anhui province) Yaomeng (300MW×2 ; Henan province)1)Poor boiler efficiency and boiler outlet gas’s temp’ is high.2)Plants stop frequently due to boiler tube leak at water wall.3)Poor turbine efficiency and vacuum condition of condenser.4)Turbine casings have caused thermal strain deformation.5)Only within 100-80% lord change of boilers.6)Manual operation of lord change,start-up and shut down.
ELECTRIC POWER DEVELOPMENT CO.
Boiler facilities -Modification; water walls,combustion equip’,air heater -Use of; gas re-circulation system,soot blower -Increase the area of ECO and decrease the area of RH. Turbine facilities -Replacement; HP turbines,IP turbines,bearings,coupling
bolts and nuts
-Improving; vacuum condition in the condensers
[3] Efficiency Improvement Measures.
ELECTRIC POWER DEVELOPMENT CO.
CO2 Emission Reduction Effect(1)
Project plan was suggested. Implementation of upgrading 10 300MW made-in-China
power units by the year 2010. The CO2 reduction effect and cost-
effectiveness of the project has been examined.
ELECTRIC POWER DEVELOPMENT CO.
184,000t-co2/y at 2010(improve 4% thermal efficiency of plants)
(=co2 emission from one 300MW unit for a whole year)
CO2 Emission Reduction Effect(2)
ELECTRIC POWER DEVELOPMENT CO.
Technical Findings
Many promising projects for AIJAIJ,CDMCDM schemes in RussiaRussia and ChinaChina.
Thermal Efficiency upgrading achieve not only CO2 reduction but also produce another benefit (reduction of other pollutants and fuel consumption etc).
To move next stage, further detailed study is needed.
ELECTRIC POWER DEVELOPMENT CO.
Findings in Financing-1 Good financing schemes are necessary. -Japanese official funding ex,JBIC ; ODA, S/C,B/C,B/L,untied loan, OIC
-Private funding ex,ROT, ROO -International funding ex,IBRD, IFC, EBRD
ELECTRIC POWER DEVELOPMENT CO.
Findings in Financing-2
Risk hedging High risk for commercial base. Governmental guarantee for financing. Low interest schemes for financing.