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CE ISO Certified 180kg Hho Electric Generator

CE ISO Certified 180kg Hho Electric Generator

  • CE ISO Certified 180kg Hho Electric Generator
CE ISO Certified 180kg Hho Electric Generator
Product Details:
Place of Origin: Changzhou ,China
Brand Name: daye
Certification: CE ISO
Model Number: DY1000
Payment & Shipping Terms:
Minimum Order Quantity: 1
Price: $2000- $5000
Packaging Details: wooden case
Delivery Time: 5-8 work days
Payment Terms: L/C, D/A, D/P, Western Union, T/T, MoneyGram
Supply Ability: 500 set/month
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Detailed Product Description
Name: HHO Electric Generator Rated Power(KW): 3.5
Working Pressure(Mpa): ≤0.2 Gas Output ±10%: 0-1000L/H
Water Consumption(L/h): 0.54L/h Cooling Model: Air Cooling
Water Supply Mode: Auto Ambient Temperature℃: 0-40
Dimension-L*W*H (mm): 660*600*780 Weight: 95kg
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Model DY1000
In put Voltage 220V Single phase
Rated Power(KW) 3.5
Working Pressure ≤0.2 Mpa
Gas Output ±10% 0-1000L/H
Water Consumption 0.54 L/h
fuel used Pure water
Cooling Model Air cooling
Water Supply Mode Manual / Automatic
Ambient temperature℃ 0-40
Dimension-L*W*H 660*570*770 MM
Weight 90kg

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In boiler application industry

hydrogen and oxygen gas are mixed with other fuels for combustion. The catalytic combustion characteristics of hydrogen and oxygen gas are utilized to fully burn the fuel in the combustion process, so that the thermal strength of the combustion chamber can be effectively improved and the emission of dust, sulfur dioxide, nitrogen oxides, dioxins and other pollutants can be effectively reduced. It can save 10%-30% of fuel consumption without secondary pollution.

Hydrogen and oxygen gas are blended with other fuels. Using hydrogen gas in combustion process of catalytic combustion characteristics, and further help other fuel combustion in combustion process is not fully, makes the hot strength of the combustion chamber is effectively improved, and also used the oxyhydrogen secondary or repeatedly the burning characteristics of combustion in the combustion process is not yet complete combustion of carbon monoxide CO, H2 hydrogen, ammonia NH4, such as hydrogen sulfide HS fully complete combustion. This has played an immeasurable role in energy conservation, emission reduction and environmental purification, effectively reducing dust, sulfur dioxide, nitrogen oxides, dioxins and other pollutants by more than 60%, and effectively reducing the emission of air pollutants from coal-fired, gas, oil-fired boilers and kilns.


The key technology

1. Principle overviewIn the case of not changing any structure of the boiler and the characteristics of the original boiler, through the pipe and the right amount of hydrogen and oxygen gas mixed into the furnace chamber suspended composite combustion. The chain boiler coal combustion and gas hydrogen and oxygen gas catalytic combustion advantages complementary organic combination together. This composite combustion method not only retains the chain furnace load, but also achieves the purpose of convenient load adjustment.


2. Combustion condition


2.1 after hydrogen and oxygen gas enters the furnace chamber for compound catalytic combustion, the temperature of the furnace chamber will increase by 50~100 degrees.


2.2 when the furnace temperature rises, the grate coal feeding speed will be reduced by 10-30%, and the coal seam thickness will be reduced by 10-30% (adjusted according to the actual operation condition of the boiler).


2.3 after composite combustion, the high temperature area moves upward to the heat intensive area, enhancing the heat intensity of the heating surface and improving the heat exchange efficiency; At the same time, a certain amount of water vapor is produced. The larger specific heat capacity of steam can increase the heat capacity of gas in the furnace, reduce the temperature of flue gas, inhibit the formation of NO compound in flue gas, and capture a certain amount of SO₂. It can reduce the pressure of desulfurization and denitrification of flue gas in the rear and extend the service life of boiler and its auxiliary parts.


2.4 in order to ensure sufficient combustion, the burner must have sufficient air supply, that is, a large excess air coefficient is adopted; However, increasing the excess air coefficient will increase the smoke volume and heat loss of smoke exhaust after combustion, affecting the combustion efficiency. In practical engineering applications, under the condition of ensuring complete combustion, lower excess air coefficient is adopted as far as possible, which is generally controlled at 1.2 ~ 1.3. Excess air coefficient of hydrogen-oxygen gas composite fuel burner = 1.01 , which is already better than the ideal level of gas fuel burner and very close to the ideal value of excess air coefficient = 1. The extremely small excess coefficient of air greatly reduces the heating heat loss of excess air in the furnace and greatly reduces the emission of flue gas. Open hydrogen and oxygen gas in critical condition, and when combustion is stable and emission reaches the standard, the oxygen content is reduced from 3% ~ 5% to 0.2 ~ 0.4, which reflects the stable combustion under extremely low excess air coefficient.When the temperature of the furnace rises, good combustion effect can be obtained by cooperating with frequency conversion adjustment of boiler drum, induced draft fan and coal feed. It can ensure combustion and save electricity.


3. Energy conservation


3.1 the rate of grate feeding coal slows down. After coal seam thinning, the combustion time of coal on grate is prolonged, the ventilation coefficient of coal seam increases, and the carbon content of coal cinder is greatly reduced, thus achieving the purpose of energy saving.


3.2 high temperature upward moving aggregation increases the heat intensity, and water vapor increases the heat capacity in the furnace, which plays a decisive role in boiler output.


3.3 after the temperature of the furnace rises, the blast and draft air are reduced to reach the dynamic balance, that is, the cold air enters the furnace less, reducing the heat loss caused by heating the cold air, and reducing the heat taken away by the draft air, so as to achieve the ultimate goal of reducing heat loss and energy saving and efficiency;


3.4 strong adaptability of coal, lignite and other low-calorific value coal can be fully burned.3.5 after hydrogen and oxygen gas is added to the furnace, the furnace temperature will not increase after 3-5 days, and will remain within a certain range. From 7-15 days, the ash scale and glue on the furnace and boiler heating surface will gradually fall off, and the gas production and boiler output will be further improved.


4. Principle of coal saving


The chain boiler combustion process is first preheating, degassing, decomposition, and then combustion, coal combustion generally accompanied by moisture, degassing decomposition process is long, excess air, low temperature, resulting in coal degassing can not be normal combustion emissions in the form of smoke. And hydrogen oxygen gas and air mix, combustion time is short and complete, can make heat all release.



Contact Details
Changzhou Daye Energy Technology Co., Ltd.

Contact Person: Miss. Grace Yang

Tel: 86 18052516360

Fax: 86-519-83856360

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