Shandong Zhongjie Special Equipment Co., Ltd. (formerly Heze Boiler Factory Co., Ltd.) was established in 2001, located at No. 2218 Jinnan Road, Development Zone, Heze City, with a registered capital of 50 million yuan and total assets of 500 million yuan. The company has 7 business centers: boilers, deep-freezing containers, pressure vessels, central air conditioning, engineering installation, international trade, and the Internet of Things. It has three factory sites on Jinnan Road, East Changjiang Road, and Bohai Road, covering a total area of 200,000 square meters, with the main workshop spanning 83,000 square meters. It currently employs 710 people, including 247 engineers and technicians and 82 intermediate-level technicians. In December 2016, it was recognized as a "High-tech Enterprise" by the Science and Technology Department. In June 2021, it was identified as a "Specialized and New Enterprise in Shandong Province" by the Ministry of Industry and Information Technology. In June 2022, it was recognized as a "Gazelle Enterprise in Shandong Province" and in August 2022, it was identified as a "Specialized and New Small Giant Enterprise" by the Ministry of Industry and Information Technology.
Biomass boiler kiln refers to the process of using a biomass boiler for kiln heating. Here are the brief steps:
Prepare Fuel: Select appropriate biomass fuel such as sawdust, straw, etc., and perform pre-treatment like drying and sieving to ensure the fuel quality and meet the requirements of the furnace.
Ignition and ignition adjustment: Place the fuel into the combustion chamber of the biomass boiler, ignite it, and perform ignition adjustment. Ignition adjustment includes adjusting parameters such as the oxygen supply to the combustion chamber, fuel supply, and combustion temperature to ensure stable combustion.
Heating and Temperature Control: As the fuel burns, biomass boilers produce high-temperature flue gas, which transfers its thermal energy to the drying kiln through a heat exchanger. During the heating process, it is necessary to control the temperature of the drying kiln to ensure that the material inside receives adequate heating.
Furnace Operation and Monitoring: During the furnace heating process, it is necessary to operate and monitor the furnace. Operations include controlling fuel supply, heat transfer, and the movement of materials inside the furnace. Monitoring involves tracking parameters such as furnace temperature, pressure, and combustion efficiency to ensure normal operation and safety.
Furnace completion and cleaning: Once the furnace heating is completed or the desired effect is achieved, cease fuel supply and heating, and perform the furnace completion procedures. Afterward, cleaning of the furnace and biomass boiler is required, including the ash and soot in the combustion chamber and flue, to maintain the cleanliness and proper operation of the equipment.

To prevent coking issues in biomass boilers, the following measures can be taken:
Choose the right fuel: Opt for high-quality, moderately humid biomass fuel, avoiding overly wet or excessively contaminated fuel to reduce the risk of carbon buildup.
Control Fuel Supply Rate: Regulate the rate of fuel supply to prevent it from being too fast or too slow, ensuring complete combustion and minimizing the likelihood of coking.
Maintain appropriate combustion temperature: Keep the combustion temperature at an appropriate level, avoiding both too low and too high temperatures. Too low temperatures can lead to coking, while too high temperatures may cause incomplete combustion.
Control Air Supply: Properly regulate the air supply to ensure complete fuel combustion, avoiding excessive air entering the combustion chamber to minimize the risk of slagging.
Regular cleaning and maintenance: Regularly clean and remove ash and soot buildup from the combustion chamber to maintain the boiler's cleanliness and prevent coking issues.
Install焦结MonitoringEquipment: Install a coking monitoring device to continuously monitor the coking condition inside the combustion chamber, and take timely measures to address it to prevent further progression of the coking issue.
Above are some common measures to prevent biomass boiler slagging. Specific preventive measures should be adjusted and optimized according to the specific conditions and operational requirements of the boiler.

Yes, the biomass boiler market is expected to continue expanding. Here are some factors driving the growth of the biomass boiler market:
Rising Demand for Renewable Energy: As the demand for renewable energy continues to grow, biomass, as a type of renewable energy, holds broad application prospects. Government and corporate support and promotion of renewable energy will facilitate the expansion of the biomass boiler market.
Environmental Awareness Upgrade: Biomass boilers have lower carbon emissions and environmental impact compared to traditional fossil fuel boilers. With the increasing environmental awareness, more and more users are opting for biomass boilers to reduce environmental impact.
Policy Support: Many regions have implemented policies and measures to support the development of renewable energy, including tax incentives and energy regulations. The promotion of these policies will drive the growth of the biomass boiler market.
Energy Security Needs: Biomass, as a local renewable energy source, can reduce dependence on imported energy and enhance energy security. In regions with scarce resources, the demand for biomass boilers will be even more pronounced.
Technological advancement and cost reduction: With ongoing technological progress and decreasing costs, biomass boilers have seen improved performance and efficiency, making them more competitive and feasible.
In summary, the biomass boiler market is expected to expand continuously, driven by factors such as the increasing demand for renewable energy, heightened environmental awareness, policy support, energy security needs, as well as technological advancements and cost reductions.

Current biomass boilers encounter the following issues in practical application:
Fuel supply is unstable: The supply of biomass fuel is subject to seasonal and regional limitations, leading to an unstable fuel supply for biomass boilers. This may result in the inability of biomass boilers to operate continuously or the need for frequent fuel switching, which increases operational costs and management difficulties.
Low combustion efficiency: Due to the characteristics of biomass fuel and the complexity of the combustion process, the combustion efficiency of biomass boilers is relatively low. Some fuels have high volatile and ash content, which may produce excessive ash and particulate matter during combustion, reducing combustion efficiency and heat energy utilization.
NOx emissions issue: Biomass boilers produce a significant amount of nitrogen oxides (NOx) during the combustion process, which has an impact on the environment. Controlling and reducing NOx emissions is a critical issue for biomass boilers.
Combustion Equipment Wear: High ash content in biomass fuel can lead to abrasion and blockage in the combustion process, which may shorten the lifespan of the equipment and necessitate frequent maintenance and cleaning.
Ash residue from combustion: Ash residue produced by biomass boiler combustion requires proper handling and disposal. Improper management may lead to environmental pollution and harm.
Lack of unified technical standards and specifications: Currently, there is a lack of unified technical standards and specifications for biomass boilers.
Zhong Jie Special Equipment upholds the grand vision of "realizing employees' dreams, creating value for customers, and striving for the prosperity and strength of our motherland," wholeheartedly commits to the development of green energy equipment industry, and dedicates high-value products and services to society!