Energy and the Environment Fall 2013 Instructor: Xiaodong Chu : Office Tel.:
Flashbacks of Last Lecture Gas turbine Gas turbine ( 燃气轮机 ) oil natural gas synthesis gas – In a gas turbine plant where oil ( 石油 ), natural gas ( 天然气 ), or synthesis gas ( 合成气 ) maybe used as a fuel, the hot combustion gases are directly used to drive a gas turbine – Gas turbines operate on the principle of the Brayton cycle – Gas turbinesreaction type blades nozzle enthalpykinetic energy – Gas turbines are of the reaction type ( 反力式 ), where blades ( 叶片 ) form a converging nozzle ( 喷嘴 ) in which the combustion gases expand, thus converting enthalpy ( 焓 ) to kinetic energy ( 动能 ) working fluidgas turbines nitrogenexcess oxygen water vapor ( 水气 ) carbon dioxide – The working fluid ( 工质 ) in gas turbines ( 燃气轮机 ), composed of nitrogen ( 氮 ), excess oxygen ( 超量氧气 ), water vapor ( 水气 ), and carbon dioxide ( 二氧化碳 ), is not recycled into the compressor and combustion chamber but is, instead, vented into the atmosphere
Flashbacks of Last Lecture Condenser Condenser ( 冷凝器 ) working fluid – In heat engine cycles, after performing useful work, the working fluid ( 工质 ) must reject heat to a cold body As much 1.5 to 3 times of heat is rejected as the plant produces work in the form of electricity condensing system flue gas smoke stack – Some of that heat is added to the environment by the condensing system ( 冷凝系统 ) in a steam cycle, and the rest is added by the discharge to the atmosphere of the hot flue gas ( 烟气 ) vented through the smoke stack ( 烟囱 )
Flashbacks of Last Lecture Cooling tower Cooling tower ( 冷却塔 ) heat rejection surface water – The bulk of the heat rejection ( 排热 ) from the steam cycle occurs either to a surface water ( 地表水 ) or to the atmosphere cooling towers thermal pollution surface water – It is mandated that heat rejection occur into the atmosphere via cooling towers ( 冷却塔 ) to prevent from thermal pollution ( 热污染 ) by the direct discharge of hot water to the surface water ( 地表水 )
Flashbacks of Last Lecture Generator Generator ( 发电机 ) – Generator – Generator ( 发电机 ) is where electricity is generated boilerturbines condensercooling tower – Compared to the boiler ( 锅炉 ), turbines ( 汽轮机, 燃气轮机 ), condenser ( 冷凝器 ), cooling tower ( 冷却塔 ), and other auxiliary equipment, the generator occupies a small fraction of the total plant outlay
Flashbacks of Last Lecture Emission control Emission control ( 排放控制 ) products of incomplete combustion (PIC) carbon monoxide (CO) – Control of products of incomplete combustion (PIC) ( 不完全燃烧产物 ) and carbon monoxide (CO) ( 一氧化碳 ) The control of PIC and CO is relatively easy to accomplish burners flue gas If the fuel and air are well-mixed, as is the case in modern burners ( 燃烧器 ), and the fuel is burnt in excess air, the flue gas ( 烟气 ) will contain very little PIC and CO start-ups breakdowns flame PIC and CO emissions do occur occasionally, especially during start-ups ( 起始 ) and component breakdowns ( 故障 ), when the flame ( 火焰 ) temperature and fuel–air mixture is not optimal These occurrences should be rare and should not contribute significantly to ambient concentrations of these pollutants
Flashbacks of Last Lecture Emission control Emission control ( 排放控制 ) – Particle control – Particle control ( 颗粒物控制 ) particulate matter (PM) Particles, also called particulate matter (PM) ( 颗粒物 ), would be the predominant pollutant emanating from power plants were it not controlled at the source mineral matter This stems from the fact that coal, and even oil, contains a significant fraction by weight of incombustible mineral matter ( 矿物质 ) pulverized coal-fired plants fly ash toxic metals arsenicseleniumcadmiummanganese chromiumleadmercurynonvolatile organic matter polycyclic aromatic hydrocarbons (PAHs) In modern pulverized coal-fired plants ( 燃煤粉发电厂 ) the majority of the mineral matter is blown out from the boiler as fly ash ( 飞灰 ), containing (a) a host of toxic metals ( 有害金属 ), such as arsenic ( 砷 ), selenium ( 硒 ), cadmium ( 镉 ), manganese ( 锰 ), chromium ( 铬 ), lead ( 铅 ), and mercury ( 汞 ), and (b) nonvolatile organic matter ( 非挥发性有机物 )including polycyclic aromatic hydrocarbons (PAHs) ( 多环芳烃 ); these would pose a public health and environmental risk if emitted into the atmosphere. Most countries instituted strict regulations on particle emissions from power plants electrostatic precipitators(ESP) fabric filters Control technologies include electrostatic precipitators (ESP) ( 静电除尘器 ) and fabric filters ( 袋式除尘器 )
Flashbacks of Last Lecture Emission control Emission control ( 排放控制 ) – Sulfur control – Sulfur control ( 硫排放控制 ) fossilized remnants As living organisms contain sulfur in their cellular make-up, this sulfur is mostly retained in the fossilized remnants ( 化石遗迹 ) of these organisms sulfur emission control smoke stack Without sulfur emission control ( 硫排放控制 ) devices, the oxidized sulfur, mainly sulfur dioxide SO 2, minor quantities of SO 3, and sulfuric acid H 2 SO 4, would be emitted through the smoke stack ( 烟囱 ) into the environment acid deposition visibility impairing haze The oxides of sulfur are precursors to acid deposition ( 酸沉降 ) and visibility impairing haze ( 降低能见度的霾 ) sulfur emission control Because coal-fired power plants emit the majority of all sulfur oxide emissions worldwide, operators of these plants are required to limit the emissions by either switching to low-sulfur containing fuels or installation of sulfur emission control ( 硫 排放控制 ) devices There are basically three approaches to reducing sulfur emissions: before, during, and after combustion of the fossil fuel
Fossil-Fueled Power Plants: Components Emission control Emission control ( 排放控制 ) – Nitrogen oxide control – Nitrogen oxide control ( 氮氧化物控制 ) nitrogen oxidesnitric oxide NOnitrogen dioxideNO 2 dimernitrogen trioxideNO 3 pentoxideN 2 O 5 nitrous oxide N 2 O The other major category of pollutants from fossil fuel combustion is nitrogen oxides ( 氮氧化物 ), called NO x, which includes nitric oxide NO ( 一氧化氮 ), nitrogen dioxide NO 2 ( 二氧化氮 ) (and its dimer ( 二聚体 ) N 2 O 4 ), nitrogen trioxide NO 3 ( 三氧 化氮 ), pentoxide N 2 O 5 ( 五氧化二氮 ), and nitrous oxide N 2 O ( 一氧化二氮 ) NO x usually implies the sum of NO and NO 2. pernicious pollutant respiratory tract irritant precursorto photo-oxidants ozone acid deposition NO x is a pernicious pollutant ( 有害污染物 ) because it is a respiratory tract irritant ( 呼吸道刺激源 ) and it is a precursor ( 前驱体 ) to photo-oxidants ( 光氧化剂 ), including ozone ( 臭氧 ) and acid deposition ( 酸沉降 ) fuel No x Coal and oil contain organic nitrogen in their molecular structure and when burnt, these fuels produce fuel No x ( 燃料型氮氧化物 ) thermal No x All fossil fuels produce thermal No x ( 热力型氮氧化物 ), resulting from the recombination of atmospheric nitrogen and oxygen under conditions of the high temperatures prevailing in the flame of fossil fuel combustion There are basically two approaches to reducing sulfur emissions: during and after combustion of the fossil fuel
Fossil-Fueled Power Plants: Components Emission control Emission control ( 排放控制 ) – Nitrogen oxide control – Nitrogen oxide control ( 氮氧化物控制 ) staged combustion During combustion, a low-NO x burner (LNB) employs a process called staged combustion ( 分级燃烧 ) NO x formation is a function of air-to-fuel ratio (by weight) in the flame
Fossil-Fueled Power Plants: Components Emission control Emission control ( 排放控制 ) – Nitrogen oxide control – Nitrogen oxide control ( 氮氧化物控制 ) annulus stoichiometric fuel-rich luminous flame Fuel (e.g., pulverized coal) and air is injected through the central annulus ( 环 )of the burner and the air/fuel ratio is less than stoichiometric ( 化学计量比 ), i.e., fuel-rich ( 富燃 ), which produces a luminous flame ( 发光火焰 ), with some of the pulverized coal left unburnt, but also with low NO x formation annuli fuel-lean Secondary and tertiary air arrives through outer annuli ( 环 ), creating an outer flame envelope that is fuel-lean ( 贫燃 ), where all the unburnt carbon burns up and less NO x is formed
Fossil-Fueled Power Plants: Components Emission control Emission control ( 排放控制 ) – Nitrogen oxide control – Nitrogen oxide control ( 氮氧化物控制 ) selective catalytic reduction ammonia urea catalytic reactor flue gas After combustion, in a selective catalytic reduction ( 选择性催化还原 ) process either ammonia ( 氨 ) or urea ( 尿素 ) is injected into a catalytic reactor ( 催化反应器 ) through which the flue gas ( 烟气 ) flows selective noncatalytic reduction In a selective noncatalytic reduction ( 选择性非催化还原 ), a reduction of NO can be accomplished at a higher temperature without a catalyst, where urea is used instead of ammonia
Fossil-Fueled Power Plants: Components Emission control Emission control ( 排放控制 ) – Toxic emissions ( 毒性排放物 ) Coal and oil contain mineral matter that during the combustion process may produce toxic vapors and particles microns Particles larger than 1–2 microns ( 微米 ) in diameter are almost all captured by the particle removal system, either by an electrostatic precipitator or a fabric filter Smaller particles and vapors may escape through the smoke stack and pollute the environment Mercury selenium cadmium arsenisemivolatile Mercury ( 汞 ), selenium ( 硒 ), cadmium ( 镉 ), and arsenic ( 砷 ) are semivolatile ( 半 挥发性 ) toxic metals that in part may escape through the smoke stack as vapors radon uranium Another problem associated with coal-fired power plants is radon ( 氡 ) emissions, which is a disintegration product of uranium ( 铀 ), the minerals of which may cling to the coal
Fossil-Fueled Power Plants: Components Waste disposal Waste disposal ( 废物处理 ) – Coal-fired power plants produce a significant amount of solid waste – Oil-fired plants produce much less waste, and gas-fired plants produce practically none fly ash scrubber sludge impenetrable material leaching – For some coals the fly ash ( 飞灰 ) and the scrubber sludge ( 污泥 ) may contain toxic organic and inorganic compounds, for which the waste needs to be disposed of in a secure landfill and the landfill must be lined, with impenetrable material ( 不透材料 ) so that leaching ( 浸出 )into the soil and groundwater is to be prevented
Fossil-Fueled Power Plants: Components
Pollutants emission
Fossil-Fueled Power Plants: Components Pollutants and pollution control in coal fire power plant
Fossil-Fueled Power Plants: Components Pollutants and pollution control in oil fire power plant
Fossil-Fueled Power Plants: Components Pollutants and pollution control in oil fire power plant
Fossil-Fueled Power Plants: Advanced Cycles Combined cycle Combined cycle ( 联合循环 )
Fossil-Fueled Power Plants: Advanced Cycles Coal gasification combined cycle Coal gasification combined cycle ( 煤气化联合循环 ) – A power plant using coal gasification and combined cycle is called an integrated gasification combined cycle plant (IGCC) – Various coal gasification methods were developed already in the nineteenth century for providing piped gas for home heating, cooking, and lighting – Coal can be gasified to low-, medium- and high-heating value syngas – For an IGCC plant, high-heating value syngas is preferred
Fossil-Fueled Power Plants: Advanced Cycles Coal gasification combined cycle Coal gasification combined cycle ( 煤气化联合循环 ) – The crushed coal is fed to a retort, where, in the presence of catalysts, it is exposed to pure oxygen and steam methane methanation – To increase the heating value, the carbon monoxide and hydrogen is passed over a catalyst at about 400 ◦ C to form principally methane ( 甲 烷 ), a process called methanation ( 甲烷化 ) water gas shift reaction – An alternative is the production of hydrogen in the water gas shift reaction ( 水煤气反应 )
Fossil-Fueled Power Plants: Advanced Cycles Cogeneration Cogeneration ( 热电联产 ) – Cogeneration is applied to systems that provide both electrical power and useful heat from the burning of fuel – In industrial or commercial installations the heat may be used for space heating or material processing – The incentive for cogeneration is primarily financial in that the cost of supplying electricity and heat via a cogeneration scheme might be less than supplying them separately – Whether or not a cogeneration system reduces the amount of fuel needed to supply the electricity and heat depends upon the details of the cogeneration system
Fossil-Fueled Power Plants: Advanced Cycles Cogeneration Cogeneration ( 热电联产 ) – When a heat engine drives an electric generator to produce electricity, it also provides a stream of hot exhaust gas – Where the exhaust gas is warm enough to be used for process or space heat, some of the exhaust gas enthalpy may be extracted to satisfy the heat requirement in a cogeneration plant
Fossil-Fueled Power Plants: Advanced Cycles Fuel cell Fuel cell( 燃料电池 ) – In a fuel cell, some of the chemical energy of the fuel is directly converted into electrical energy, with the rest appearing as heat rejected to the environment – Its theoretical thermal efficiency in terms of electrical energy generated versus fuel chemical energy input can be close to 100% when producing a low output of power reforming of methane – Fuel cell hydrogen is usually generated by the reforming of methane ( 甲烷重整 )
Fossil-Fueled Power Plants