Section 1: Brief Introduction to Biomass Boiler Technical Performance

1. Fully automatic operation with variable frequency control, automatic ignition, and fire retention function; utilizes a carbon-gas blended combustion with full premixed gas phase separation biomass pellet fuel combustion technology, integrated with fluid dynamics. Features automatic combustion with zero smoke and dust emissions, energy-saving, and environmental protection.

2. Full horizontal three-dimensional structure design, integrating traditional heat transfer principles, operates with energy-saving and electricity-saving, reducing energy consumption. The furnace body does not require ash cleaning for extended periods without maintenance; with an extra-large combustion chamber, a large heat exchange area at high temperatures, suitable for both wood and biomass pellets, saving operational costs; easy to maintain, with no blind spots.

3. Utilizing centrifugal rotation combustion technology and combining with chemical reaction kinetics, it increases the radiation heat exchange time, extends the radiation distance, enhances the efficiency of heat exchange, and maintains constant temperature while saving energy.

4. Full intelligent automatic operation with IoT remote variable frequency control technology, automatic ignition, convenient and labor-saving, easy to use. Variable frequency control, automatic ignition, and automatic flame retention function.

5. Four-pass design, utilizing condensate heat recovery, with low flue gas exhaust temperature; produces high-temperature hot water, offering excellent heating quality, and saves energy by approximately 30%.

6. Integrated machine quick assembly structure design, ergonomically designed. Easy installation, easy maintenance, easy to use.

7. Automatic scale removal at high temperatures; the waste heat recovery unit reaches a boiling state around 85°C, retaining scale within the waste heat recovery period, allowing clean, scale-free hot water to enter the hot water boiler body, achieving rapid hot water production and fuel savings.

8. Dual dust removal design, with the blower installed after waste heat recovery and dust removal, ensuring the blower is unaffected by high temperatures and dust, thus preventing resonance. Further, the exhaust undergoes secondary dust removal, resulting in smoke and dust-free emissions, meeting environmental protection standards.

9. 45% inclined cutting ensures no tempering, with high-temperature carbon combustion and gasification, the combustion temperature in the furnace can reach up to 1200°C, with segmented combustion.

10. Exceptional details, quality evident, with multiple safety features including anti-dry-burn and anti-underwater protection, ensuring no accidents occur.

11. Anti-Dry-Run Protection: In case of water shortage in the hot water boiler, the controller automatically shuts off the heating unit and triggers a low-water alarm to prevent the boiler from being damaged by dry burning.

12. Water Level Protection: Equipped with a water level sensor for real-time water level detection, the hot water boiler features automatic water level control to ensure precise and normal water supply. High and low water level alarms with interlocking protection, one in use and one in reserve, for convenient and quick maintenance.

13. Over-temperature Protection: Prevents dry burning of the hot water boiler, initiates emergency response, and promptly activates a连锁 control to stop operation.

14. Furnace Explosion Protection: Designed with the combustion characteristics of biomass pellet hot water boilers in mind, the furnace features explosion-proof relief outlets to ensure stable operation of the hot water boiler.

15. Utilize high-temperature-resistant wire: high insulation grade, durable and long-lasting.

16. Scientific design, exquisite appearance; the square box biomass hot water boiler shell is treated with electrostatic powder coating, offering a beautiful finish and high corrosion resistance. The square box shell is formed through CNC cutting and bending, ensuring exquisite craftsmanship; the surface has been treated with high-temperature electrostatic powder coating, making it durable and aesthetically pleasing.

17. This equipment features a compact structure and minimal footprint, with the entire unit being integrated and factory-assembled. Both the unit and all accessories undergo pre-delivery testing and fine-tuning, ensuring they pass stringent inspections for customer peace of mind.

Section 2: Introduction to Carbon Gas Composite Combustion Technology

Our company employs advanced design concepts and biomass pellet combustion technology, developing a constant-temperature combustion method specifically tailored to the characteristics of biomass pellet fuel. This method is currently one of the more reasonable and stable biomass pellet combustion methods in China.

For different biomass characteristics, by integrating fluid dynamics, and based on the laws of mass, momentum, and energy conservation, a rational application of wind tunnel fluid dynamics is made in a graded combustion technology for biomass pellet boilers. This combustion method fundamentally颠覆s traditional combustion methods, dividing into ignition, flame, and further into four types of flames: pre-mixed flame, laminar flame, turbulent flame, and diffusion flame. It undergoes dry distillation, carbonization, carbon combustion, and gasification, manifesting as flames.

Biomass pellet fuel has an initial energy, which is produced at around 325-500 degrees Celsius and ignites rapidly when the concentration reaches a certain equivalence. At this point, most homogenous gases, hydrogen, ethylene, and other combustible gases undergo a chain-branching combustion reaction. Fluid dynamics (scientific air mixing) plays a crucial role by creating the concentration of active intermediates. The staged combustion technology first involves a rapid exothermic and luminous oxidation reaction of biomass pellets with oxygen or air through intelligent feeding.

Biomass boilers are designed in the shape of reaction vessels, ensuring stability in mass and heat transfer processes. A biomass boiler that improves combustion through the use of high-temperature air.

Fuel is introduced from the bottom, burning from top to bottom sequentially through: 1. the discharge layer, 2. the pyrolysis layer, 3. the carbonization layer, 4. the carbon combustion layer, and 5. the gas combustion layer. The biomass pellet fuel is first carbonized at high temperatures and then gasified for combustion, rather than being directly added to an already burning furnace.

Distillation layer: The biomass granule raw material layer, fed continuously by a specially designed lower feeding device, is propelled forward by a spiral feeding mechanism, with material continuously rising from below. As there is no air supply in this section, the upper combustion temperature radiates down, causing the lower part to be subjected to anaerobic distillation. At this point, biomass pyrolysis occurs, producing a premixed flame. The combustible gases and air or oxygen decompose according to the chemical equivalent in an anaerobic or oxygen-free state, producing gases like ethylene and carbon dioxide. The chemical reaction is confined to a very narrow flame front, forming a flame (also known as a power flame). These gases further decompose to produce liquid aromatic hydrocarbons, tar, and solids.

Carbon layer: A flame formed during the combustion of a combustible mixture in a laminar flow, stationary, or in a laminar motion, where the temperature continuously increases, and the produced liquid decomposes and vaporizes, causing the flame front to be torn apart. During volatilization, it undergoes dry distillation to convert into hydrocarbon gases. The carbonization does not include gases produced by combustion.

Carbon flame layer: A turbulent flame, formed by the combustion of unpremixed combustible materials and oxygen or air, where intense luminous and heat-releasing reactions occur at the interface or space, producing bright, incandescent smoke through the microproperties of biomass particles. Steam produced during biomass decomposition is decomposed into oxygen at high temperatures.

Fuel gas layer: Due to the layered combustion technology, diffusion flames are produced. As the fuel combines with air and oxygen inside the furnace, carbon oxides are formed and decompose into low-molecular compounds in the high-temperature environment, releasing free carbon particles. When these particles combine with oxygen during combustion, they burn intensely, producing a bright, white flame. This can raise the furnace temperature to 1200°C, with peak temperatures reaching up to 1400°C; small boilers can also reach temperatures from 950°C to 1100°C.

Three: Advanced performance, high level of automation

Section 4: Comparison of Energy Consumption Costs for Various Fuels:

I. Technical Parameters of Fully Automatic Biomass Pellet Atmospheric Pressure Hot Water Boiler (Biomass-Specific)Section II: Technical Specifications of Full-Automatic Biomass Pellet Atmospheric Pressure Hot Water Boiler (Triple-use: Biomass/Coal/Wood)1. Calorific value is calculated according to the following standard: 4200 kcal/kg

2. Fuel consumption rates are based on the full load of the boiler. Actual consumption may vary depending on the operating conditions.

3. Retain the right to redefine or alter product information without prior notice (including appearance, dimensions, control methods, and internal structure).