low nitrogen condensing gas steam boiler
Capacity:1-20t/h
Rated thermal efficiency: 100-104%
Fixed working pressure: ≤1.6MPa
Applicable fuel:natural gas etc.
Capacity:0.7-14MW
Rated thermal efficiency:96-98%
Fixed working pressure:≤1.25MPa
Applicable fuel:Natural gas, light oil, etc.
Capacity:0.7-2.8Mw
Rated thermal efficiency: 97.2-106%
Fixed working pressure:0.1MPa
Applicable fuel:Natural gas, etc.
Capacity:2.8-7.0Mw
Rated thermal efficiency:≥105.5%
Fixed working pressure:-0.02MPa
Applicable fuel:Natural gas, etc.
Capacity:99Kw
Rated thermal efficiency:97.2-104.4%
Fixed working pressure:1.0MPa
Applicable fuel:Natural gas, etc.
Capacity:0.5-4.0 t/h
Rated thermal efficiency:98%
Fixed working pressure:≤1.25MPa
Applicable fuel:electric energy
The boiler exhaust, or flue gas, consists mostly of nitrogen (N 2), and CO 2. Separating CO 2 from this flue gas stream is challenging for several reasons: CO 2 is present at dilute concentration (typically 13 to 15 volume percent for PC power plants and 3 to 4 percent for natural gas-fired plants) and at low pressure (slightly above Get Price
Most condensing gas boilers can run on a hydrogen blend of 20% hydrogen but not hydrogen. Worcester Bosch and Baxi have developed prototypes of hydrogen boilers. These boilers still work with natural gas but after a short visit from a heating engineer they can work on a supply of hydrogen.Get Price
Sep 18, 2020 · The American Society of Mechanical Engineers and the Boiler and Pressure Vessel Code, Section IV, Rules for the Construction of Heating Boilers, define the requirements for hot water and steam heating boilers versus the requirement for power boilers, which are used mainly for power generation and other industrial uses.Heating boilers generate steam less than 15 …Get Price
Hot water heating boiler. A boiler in which no steam is generated, from which hot water is circulated for heating purposes and then returned to the boiler, and that operates at water pressures not exceeding 160 pounds per square inch gauge (psig) (1100 kPa gauge) and at water temperatures not exceeding 250°F (121°C) at or near the boiler outlet. Hot water supply boiler.Get Price
Gas (Oil) Fired Steam Boiler. The gas-fired steam boiler is the star product of Fangkuai. It uses advanced flue gas condensing technology to use flue gas waste heat + FGR + full premixing and other advanced combustiontechnologies. It is a leader in …Get Price
Sep 18, 2020 · The American Society of Mechanical Engineers and the Boiler and Pressure Vessel Code, Section IV, Rules for the Construction of Heating Boilers, define the requirements for hot water and steam heating boilers versus the requirement for power boilers, which are used mainly for power generation and other industrial uses.Heating boilers generate steam less than 15 …Get Price
Boiler Basics Part 4 – Piping; Oil Nozzles; Venting for High-Efficiency Gas Furnaces – Part 2 Assembly; Venting for High efficiency Gas Furnaces – Part 1 Materials; Boiler Basics Part 3 – Steam; Lifting Techniques Part 5 – Really HEAVY Stuff; Electronic Leak Detection; Something You May Want to Consider on Every Call; Oil and RefrigerantGet Price
Most condensing gas boilers can run on a hydrogen blend of 20% hydrogen but not hydrogen. Worcester Bosch and Baxi have developed prototypes of hydrogen boilers. These boilers still work with natural gas but after a short visit from a heating engineer they can work on a supply of hydrogen.Get Price
If it is condensed from steam, it may have traces of the various boiler water treatment chemicals. And if it is condensed from furnace exhaust gases, it may be acidic, containing sulfuric acid or nitric acid as a result of sulfur and nitrogen dioxides in the exhaust gas stream. Steam and exhaust condensate is usually hot.Get Price
The resulting hot water is collected and used after treatment to neutralize its corrosion potential. (This is an incidental advantage of direct-contact flue gas condensing: it removes particles and acid gases, such as SO 2, from exhaust.) With condensing economizers, the overall boiler efficiencies can exceed 90 percent.Get Price
Gas and air together pass through a tube leading to the burner ports, mixing in the process. Of •ft 180 160 140 120 CONDITIONS FOR DRY SURF/ iCES WITH NO ACID DEPOSIT s / -/ A / A/VAA X^ X OEPOSI INCREA J- U ^ CONDITIONS FOR MOIST ACID /. Case history of a 20 gph fire tube hot water boiler As found Reset to specifi- cations draft 0.22 Get Price
Low-temperature flue-gas heat exchangers. Special corrosion-resistant heat exchangers are used to recover additional energy from the flue-gas at the boiler exit, after an ESP, or after a dry sorbent injection system. Applicable within the constraints of …Get Price
a new heat recovery boiler to produce steam from the energy contained in the exhaust gas of the turbine or combustion engine. Energy recovery can be maximized by installing a standard economizer at the outlet of the heat recovery boiler ( the temperature of the combustion gas, which ranges from 120°C to 150ºC, depending on the fuel, can also Get Price
Boiler Efficiency = Heat output / Heat Input X 100. Or Boiler Efficiency = Q X (h2 – h1) / (q X GCV) X 100. Where Q = Qty of steam generated. h2 = Enthalpy of steam at output of boiler. h1 = Enthalpy of feed water. Heat Input = q X GCV. q = Fuel Qty. GCV = Gross calorific Value. Below Link can be used to calculate direct boiler efficiency:-Get Price
(v) Boiler-steam turbine cogeneration systems. (vi) Industry specific steam end-use systems. Regulated gas stream means an offgas stream that is routed to a boiler for the purpose of achieving compliance with a standard under another subpart of this part or part 60, part 61, or part 65 of this chapter.Get Price
source of the steam. Steam turbines can be used with a boiler fi ring any one or a combination of a large variety of fuel sources, or they can be used with a gas turbine in a combined cycle confi guration. Boiler emissions vary depending on fuel type and environmental conditions. Boiler emissions include nitrogen oxide (NO x), sulfur oxides (SO xGet Price
Hot press Nitrogen making machine Brazing machine heating machine High frequency machine. Steam boiler. Electric steam boiler Oil-fired steam boiler Gas steam boiler Vertical steam boiler Horizontal steam boiler. Hot water boiler. Low Voltage Copper/Aluminum Conductor XLPE/PVC Insulated Swa Armoured Electrical Power Cable 0.6/1kvGet Price
The boiler exhaust, or flue gas, consists mostly of nitrogen (N 2), and CO 2. Separating CO 2 from this flue gas stream is challenging for several reasons: CO 2 is present at dilute concentration (typically 13 to 15 volume percent for PC power plants and 3 to 4 percent for natural gas-fired plants) and at low pressure (slightly above Get Price
The flue-gas exit temperature is related to boiler design rather than the combustor. A well-designed boiler can achieve low exit gas temperatures for any of the technologies. Excess air and burnout are the two main contributors to heat loss that are strictly combustor related. They are also related to each other.Get Price
If it is condensed from steam, it may have traces of the various boiler water treatment chemicals. And if it is condensed from furnace exhaust gases, it may be acidic, containing sulfuric acid or nitric acid as a result of sulfur and nitrogen dioxides in the exhaust gas stream. Steam and exhaust condensate is usually hot.Get Price
source of the steam. Steam turbines can be used with a boiler fi ring any one or a combination of a large variety of fuel sources, or they can be used with a gas turbine in a combined cycle confi guration. Boiler emissions vary depending on fuel type and environmental conditions. Boiler emissions include nitrogen oxide (NO x), sulfur oxides (SO xGet Price
Feb 12, 2021 · 17-A 200 TPH boiler generates 190 TPH (Q1) steam at pressure 121 kg/cm2 and temperature 550 deg C & consumes 31 TPH of coal having GCV 5200 kcal/kg. Calculate the Boiler efficiency if it requires 25 TPH (Q3) attemperator water at temperature 125 deg C. Consider feed water temperature at economizer inlet is 210 deg C & ignore blow down loss.Get Price
Boiler Efficiency = Heat output / Heat Input X 100. Or Boiler Efficiency = Q X (h2 – h1) / (q X GCV) X 100. Where Q = Qty of steam generated. h2 = Enthalpy of steam at output of boiler. h1 = Enthalpy of feed water. Heat Input = q X GCV. q = Fuel Qty. GCV = Gross calorific Value. Below Link can be used to calculate direct boiler efficiency:-Get Price
The resulting hot water is collected and used after treatment to neutralize its corrosion potential. (This is an incidental advantage of direct-contact flue gas condensing: it removes particles and acid gases, such as SO 2, from exhaust.) With condensing economizers, the overall boiler efficiencies can exceed 90 percent.Get Price
The flue-gas exit temperature is related to boiler design rather than the combustor. A well-designed boiler can achieve low exit gas temperatures for any of the technologies. Excess air and burnout are the two main contributors to heat loss that are strictly combustor related. They are also related to each other.Get Price
Gas (Oil) Fired Steam Boiler. The gas-fired steam boiler is the star product of Fangkuai. It uses advanced flue gas condensing technology to use flue gas waste heat + FGR + full premixing and other advanced combustiontechnologies. It is a leader in …Get Price
Jul 23, 2017 · BOE (BOILER OPERATION ENGINEERING) QUESTIONS AND ANSWERS FOR ALL STATS BOARD:-In this post you we discussed about the BOE (BOILER OPERATION ENGINEERING ) short type question answer these question selected by the experienced BOE (BOILER OPERATION ENGINEERING ) which worked in different stats of India and also outside of the …Get Price
Jul 23, 2017 · BOE (BOILER OPERATION ENGINEERING) QUESTIONS AND ANSWERS FOR ALL STATS BOARD:-In this post you we discussed about the BOE (BOILER OPERATION ENGINEERING ) short type question answer these question selected by the experienced BOE (BOILER OPERATION ENGINEERING ) which worked in different stats of India and also outside of the …Get Price