MECHANISM OF NOx CONTROL

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MECHANISM OF NOx CONTROL SC/EEC Seminar/22 nd April,2016 1

2. Concept MECHANISM OF NOx CONTROL NOx generation in the coal fired boiler? Thermal NOx and Fuel NOx are the main factors of NOx generation... Thermal NOx 50~100ppm Fuel NOx is about 2,000ppm Actual NOx level is about 20% 300~500ppm All N in coal reacts to NOx (6,000kcal/kg, N:1%) Coal fired boiler without low NOx technology SC/EEC Seminar/22 nd April,2016 2 2

MECHANISM OF NOx CONTROL 2. Concept NOx Generation Mechanism on Coal Combustion rich reducing substances exist at inside of flame. Volatile matter combustion Char combustion 2ry air Coal burner Little O 2 at inside of flame Rich reducing substances, such as C m H n and CO (NOx) p (NOx) s 2ry air Ignition Fuel Ratio = (Fixed Carbon) / (Volatile matter) 2ry air mixing SC/EEC Seminar/22 nd April,2016 3

MECHANISM OF NOx CONTROL 2. Concept 4 NOx reduction mechanism is based on <1> How to reduce NOx formation in the early stage of combustion <2> Promote reduction reaction from NOx to HCN / NH3 as intermediary compounds <3> Decrease re-formation of NOx from HCN / NH3 SC/EEC Seminar/22 nd April,2016 4

MECHANISM OF NOx CONTROL - NOx level is about 2,000 ppm in case all of N in coal reacts to NOx. Fuel NOx governs NOx generation - NOx level is about at most 500ppm without low NOx technology. NOx reduction occurs with reducing substances released from coal. The main point for low NOx combustion is how to reduce NOx efficiently. Fuel NOx N in coal HCN NH 3 NO O 2 Thermal NOx O 2 N 2 in combustion air Prompt NOx N 2 NOx reduction Volatile Matter, Char SC/EEC Seminar/22 nd April,2016 5 NO N 2 O NO N N 2 CH HCN N 5

MECHANISM OF NOx CONTROL - NOx profile :main combustion zone and combustion completion Combustion Completion Zone (Oxidation) Additional Air (AA) Coal (N:1%) NOx NOx N 2, HCN, NH 3 N in Volatile matter N in char Char N release according to char combustion progress AA High NOx conversion ratio N release according to char combustion progress N N N Remained N Ash + unburned carbon Combustion Proceeding Main Combustion Zone (Reduction) Main Combustion Zone Combustion Completion Zone Time SC/EEC Seminar/22 nd April,2016 6

2. Concept MECHANISM OF NOx CONTROL 7 NOx reduction basic concept MACT - It is important to keep reduction condition on main combustion zone by additional air (AA). - Theoretically, NOx is reduced enough at burner zone air ratio under 1.0. 1) Lower temperature is effective for decreasing NOx generation in oxidation condition. 2) Higher temperature is effective for reducing NOx in reduction condition. NOx decomposition ratio % NOx concentration ppm endothermic reaction in reduction condition. Air ratio Temperature Fig. Lab.-scale test result for NOx reduction with coal. Fig. Lab.-scale test result for NOx generation on reduction condition. SC/EEC Seminar/22 nd April,2016 7

MECHANISM OF NOx CONTROL 8 MAIN WINDBOX AA PORT WINDBOX SC/EEC Seminar/22 nd April,2016 8

OPERATIONAL EXPERIENCE SC/EEC Seminar/22 nd April,2016 9

10 OPERATIONAL EXPERIENCE Unit Country Output Operation K Plant Japan 450t/h 1996 M1 Plant Japan 1,000MW 1998 N1 Plant Japan 460t/h 2000 T2 Plant Japan 700MW 2000 K1 Plant Japan 700MW 2002 H5 Plant Japan 600MW 2004 Ma1 Plant Japan 900MW 2004 B1,2 Plant Thailand 700MW 2006, 2007 P1 Plant Mexico 651MW 2010 P3 Plant Indonesia 866MW 2012 H6 Plant Japan 600MW 2013 R1 Plant India 700MW 2014 N1,2 Plant India 660MW 2014, 2015 K8 Plant India 660MW 2015 SC/EEC Seminar/22 nd April,2016 10

OPERATIONAL EXPERIENCE Domestic plant J525MW x 1 (2012) 543 License to Chinese boiler maker License to MHPS-AEE Domestic plant H5 600MW x 1 (2014) 604/602 Chili plant N1&N2 130MW x2 (2014) Chinese plant Z1&Z2 700MW x 2 (2013) 541/568 Chinese plant B3 350MW x 1 541/541 (2014) Mexican plant C2 350MW x 1 (2013) 541/541 SC/EEC Seminar/22 nd April,2016 11 11

OPERATIONAL EXPERIENCE 12 2 x 700 MW NABHA POWER PLANT, RAJPURA, PUNJAB SC/EEC Seminar/22 nd April,2016 12

POST COMBUSTION CONTROL SC/EEC Seminar/22 nd April,2016 13

POST COMBUSTION CONTROL As per Ministry of Environment, Forest and Climate Change Notification dated Dec 7, 2015 S.N. TPP Installation Period NOx requirement Deadline 1 Before Dec 31, 2003 600 mg/nm 3 Within 2 year from notification 2 Between Jan 01, 2004 to Dec 31, 2016 300 mg/nm 3 Within 2 year from notification 3 From Jan 01, 2017 100 mg/nm 3 Must meet upon completion SC/EEC Seminar/22 nd April,2016 14

2. Concept POST COMBUSTION CONTROL Post combustion control methods used to reduce NO X to molecular nitrogen through catalytic conversions: <1> Selective Non-Catalytic Reduction (SNCR) <2> Selective Catalytic Reduction (SCR) The selective catalytic reduction process removes nitrogen oxides (NO X ) from flue gases by injecting ammonia (NH 3 ) into the flue gas and passing the well mixed gases through a catalyst bed. NO X reacts with NH 3 in the presence of the catalyst to produce nitrogen (N 2 ) and water (H 2 O) as shown in the following equation 4NO + 4NH 3 + O 2 = 4N 2 + 6H 2 O SC/EEC Seminar/22 nd April,2016 15

2. Concept POST COMBUSTION CONTROL [ppm] SC/EEC Seminar/22 nd April,2016 16

POST COMBUSTION CONTROL <1> SCR De NOx reactor including catalyst <2> Ammonia storage facilities <3> Ammonia loading and unloading facilities <4> Ammonia gas preparation <5> Air pre-mixing system <6> Ammonia injection grid <7> Soot blowers <6> Control system SC/EEC Seminar/22 nd April,2016 17

POST COMBUSTION CONTROL CHALLENGES IN INSTALLATION OF SCR S No Requirement 1 SCR is to be located upstream of the Air Preheater Remarks Tight layout especially in existing plants 2 High dust burden in Indian coals Catalyst plugging and erosion of catalysts is a matter of concern 3 Formation of ammonium bisulphate Fouling and plugging of Air preheater 4 Hazardous nature of Ammonia Safety issue 5 Availability of ammonia Vendors to be identified 6 Disposal of spent catalyst Catalyst Life cycle management 7 Pressure drop across SCR Fans need to be resized 8 Low load operation to avoid ammonium bisulphate formation Layout requirements for economiser gas bypass to be considered. SC/EEC Seminar/22 nd April,2016 18

CONCLUSION SC/EEC Seminar/22 nd April,2016 19

2. Concept CONCLUSION New Emission Norms 2015 Advanced Combustion Technology for Coal Combustion CCF Uniform Firing in Furnace PM Burner Low NOx Burner MACT NOx Removal System in Furnace MRS Mill High Performance Vertical Mill Advanced Low NOx combustion technologies can help in the optimization of post combustion control (SCR) technology SC/EEC Seminar/22 nd April,2016 20

SC/EEC Seminar/22 nd April,2016 21

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