Coal and Steam Power Plants PhDr. Tomáš Vlček, Ph.D. International Relations and Energy Security Department of International Relations and European Studies Faculty of Social Studies MU Content  What is Coal  World Key Players  World Market and Price Mechanism  Coal Fuel Cycle  Coal Mining  Steam Power Plants Caustobioliths of the coal series Peat Lignite Brown coal Bituminous coal Anthracite Water Content >75 % 19-33 % 10-19 % 2-10 % <2 % Carbon Content 50-60 % <65 % 65-69 % 69-92 % 86-98 % Calorific Value 6-15 MJ/kg <17 MJ/kg 17-24 MJ/kg 24-33 MJ/kg >33 MJ/kg Coal Quality and Coal Use World Coal Industry  Coal provides 30.3% of global primary energy needs and generates 42% of the world‘s electricity.  In 2011 coal was the fastest growing form of energy outside renewables.  Total Global Coal Production in 2011 was 7,678 Mt. (Czech Republic 58 Mt/2011)  Total world resources are 1,004,000 Mt (according to BGR/IEA), or 861,000 Mt (according to WEC/BP) World Coal Mining World Coal Mining 2016 Top Ten Hard Coal / 2012 Brown Coal Producers (source: World Coal Association, 2017)  China 3243 Mt / Germany 176 Mt  India 708 Mt / PR China 136 Mt  USA 672 Mt / Russia 78 Mt  Australia 503 Mt / Turkey 74 Mt  Indonesia 461 Mt / USA 74 Mt  Russia 366 Mt / Australia 69 Mt  South Africa 257 Mt / Poland 63 Mt  Germany 176 Mt / Greece 59 Mt  Poland 131 Mt / Czech Republic 43 Mt  Kazakhstan 98 Mt / India 41 Mt Over 7269 Mt of hard coal are currently produced worldwide and 787 Mt of lignite. World Coal Mining 2009 Top Twelve Countries Heavily Dependent on Coal in Electricity Production (source: World Coal Association, 2012)  South Africa 93 %  Poland 90 %  PR China 79 %  Australia 76 %  Kazakhstan 70 %  India 69 %  Israel 63 %  Czech Rep 56 %  Morocco 55 %  Greece 55 %  USA 45 %  Germany 44 % World Key Players Production Consumption Export Import China 2 721 China 2 721 Australia 261 Japan 165 USA 907 USA 904 Indonesia 233 China 112 India 556 India 611 Russia 108 South Korea 99 Australia 411 Germany 224 Colombia 67 India 75 Russia 311 Russia 220 USA 54 Taiwan 58 Indonesia 291 South Africa 191 South Africa 52 Germany 41 South Africa 249 Japan 164 China 23 UK 38 World 6 350 World 6 350 World 907 World 907 World Key Producers World Key Producers Commodity specifics  Main use of coal: production of heat and electricity by combustion; production of metallurgical coke by carbonization of coal  1 kWh of electricity = combustion of 0.00049 tons of coal on average  1 MWh of elelctricity = 0.49 tons of coal  1,000 MW power plant´s 1 hour production = combustion of 490 tons of coal  24-hour-production = 11,760 tons  1-month-production = 352,800 tons  Coal is traded all over the world, with coal shipped huge distances by sea to reach markets.  Ships are commonly used for international transportation, in sizes ranging from: ◦ Handysize - 40-45,000 DWT ◦ Panamax - about 60-80,000 DWT ◦ Capesize vessels - about 80,000 DWT  Overall international trade in coal reached 1142Mt in 2011; while this is a significant amount of coal it still only accounts for about 16% of total coal consumed. Most coal is used in the country in which it is produced. World Market and Price Mechanism World Market and Price Mechanism  Transportation costs account for a large share of the total delivered price of coal, therefore international trade in steam coal is effectively divided into two regional markets  the Atlantic market, made up of importing countries in Western Europe, notably the UK, Germany and Spain.  the Pacific market, which consists of developing and OECD Asian importers, notably Japan, Korea and Chinese Taipei. The Pacific market currently accounts for about 57% of world seaborne steam coal trade. World Market and Price Mechanism Source: Euracoal World Market and Price Mechanism Source: Euracoal World Market and Price Mechanism  The price of coal is influenced by: ◦ Supply (production capacity; technology; inland transport capacity; naval transport capacity) and Demand (structure and condition of economy; regulations – environmental, price; competition of resources) ◦ Price of Oil (production costs – fuel in mining operations; commodity substitutes) ◦ Cost of Equipment ◦ Price of Naval Transportation ◦ Exchange Rates ◦ Speculations World Market and Price Mechanism Coal Fuel Cycle Mining Processing Burning (use) Coal ash and CO2 emissions Electricity and heat (product) Coal mining 21 Energetický determinismus  Středověké a raně-moderní pokroky ◦ dominance organických zdrojů energie ◦ postupné pokroky v efektivitě konverze (šlapací kola, kladky, podkovy, chomouty, krmiva, pěstění zvířat) – až 50% nárůst oproti antice ◦ ne-organické zdroje hnací síly:  vodní mlýny v JV Anglii (4 kW) 11. století  větrná energie: zdokonalení plachet (+kompas, těžká děla a kormidlo na zádi = zámořské objevy) ◦ 15. století: první tavící pece v údolí Rýna  nedostatek paliva (poptávka průměrné pece v Anglii začátku 18. století je 12 000 tun dřeva ročně) 26 Energetický determinismus 27 Coal Mining – underground Coal Mining – underground Coal mining Coal Processing 37 Coal transport Další.. 38 Další.. 39 Další.. 40 Další.. 41  Prámy: ◦ až 10 x 1 500 t ◦ 10 km/h ◦ 400 – 1 000 Btu/t/m  Nákladní auta: ◦ 15 – 30 tun do 100 km (2 500 Btu/t/m) ◦ offroady: až 200 tun do 25 km (1 900 Btu/t/m)  Běžící pásy ◦ do 15 (25) km, 20 – 50 000 Btu/t/m.  Potrubí (slurry) ◦ 1-2 m/s, směs uhlí a vody (1:1), případně etanolu a vody 42 Coal transport 43 Coal transport  Prámy: ◦ až 10 x 1 500 t ◦ 10 km/h ◦ 400 – 1 000 Btu/t/m  Nákladní auta: ◦ 15 – 30 tun do 100 km (2 500 Btu/t/m) ◦ offroady: až 320 tun do 25 km (1 900 Btu/t/m)  Běžící pásy ◦ do 15 (25) km, 20 – 50 000 Btu/t/m.  Potrubí (slurry) ◦ 1-2 m/s, směs uhlí a vody (1:1), případně etanolu a vody 44 Coal transport Capesize (80 – 175 kDWT) Panamax (65 – 80 kDWT) Handymax (35 – 65 kDWT) Handysize (10 – 35 kDWT) 45 Coal transport 46 Coal transport 47 Coal transport 48 Coal transport  Prámy: ◦ až 10 x 1 500 t ◦ 10 km/h ◦ 400 – 1 000 Btu/t/m  Nákladní auta: ◦ 15 – 30 tun do 100 km (2 500 Btu/t/m) ◦ offroady: až 200 tun do 25 km (1 900 Btu/t/m)  Běžící pásy ◦ do 15 (25) km, 20 – 50 000 Btu/t/m.  Potrubí (slurry) ◦ 1-2 m/s, směs uhlí a vody (1:1), případně etanolu a vody 49 Coal transport 50 Coal transport Steam Power Plants Steam Power Plants 53 54 56 Coal ash and CO2 emmissions  Burning of coal produces large amounts of waste, especially coal ash and scrubber sludge Coal ash and CO2 emmissions  This material is generally uncleanable, unavoidable and only partially remediatable Coal ash and CO2 emmissions  Along with oil, coal combustion produces the largest amounts of carbon dioxide as the key polutant  820 kg CO2 per 1 MWh  1000 MWe power plant operating for one hour produces 820 tons of CO2 Solutions (?)  Switch to natural gas  Switch to renewables or nuclear energy  Install CCS  Install IGCC CCS  Process of capturing waste carbon dioxide (CO2) from large point sources, transporting it to a storage site, and depositing it where it will not enter the atmosphere, normally an underground geological formation.  Up to 85 % effectivity (ie. 220-250 kg CO2/1MWh)  Transformation effectivity reduction by 8-14 %  Fuel consumption raised by 25 %  Plus investment costs IGCC  Integrated Gasification Combined Cycle  Gasification of coal  Gas turbine + steam generator  Investment costs http://www.eurosolar.cz/phprs/view.php?ci sloclanku=2007021301 Downstream Industries  Generaly very environmental unfriendly  Steal production  Metallurgical coke  Chemical industry  Pharmacy  Dyes  etc. Summary  Key energy source in the world  The greatest pollutant  Worldwide solution number one if you want cheap and stable electricity production  Low investment costs  High fuel costs  Extremely dependent on stable fuel supply and stable fuel prices (50-66 % of total costs)