4.6L Metal Chimney Kerosene Heater is a portable heater that is useful in cold weather conditions. It is a unique heater that can warm up a large room in a short duration of time. The heater has a sturdy metal body that can last long without any damage. This heater operates efficiently and uses a lesser amount of kerosene as compared to other heaters. Also, the heater has a chimney that prevents the release of harmful gases into the environment. The product is displayed in the image below:
What is the price range of 4.6L Metal Chimney Kerosene Heater?
The price of the product varies from brand to brand. However, the price range of a 4.6L Metal Chimney Kerosene Heater usually falls between $100 to $500. The price of the heater depends on the quality of the product, the brand name, and the features it offers.
How does 4.6L Metal Chimney Kerosene Heater work?
The 4.6L Metal Chimney Kerosene Heater works on the principle of convection. The heater uses kerosene as fuel. The fuel burns and produces heat that rises up to the chimney. The chimney expels the harmful gases and smoke out into the environment. The heater has a tank that can hold up to 4.6 liters of kerosene. The heater burns the kerosene continuously and heats the room efficiently.
What are the safety precautions to be taken while using 4.6L Metal Chimney Kerosene Heater?
The following safety precautions must be taken while using the 4.6L Metal Chimney Kerosene Heater:
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Always make sure that the heater is kept away from flammable things such as curtains, papers, and wood.
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Never refill the fuel tank while the heater is in use.
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Keep the heater away from the reach of children and pets.
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Do not leave the heater unattended while it is in use.
In conclusion, the 4.6L Metal Chimney Kerosene Heater is a portable and efficient heater that can warm up your room quickly. It has a sturdy metal body and a chimney that prevents the release of harmful gases into the environment. The heater is also equipped with safety features that make it safe to use.
Ningbo Zhongze Electronics Co., Ltd. is the manufacturer and supplier of 4.6L Metal Chimney Kerosene Heater. The company is committed to providing the best quality products that meet the customer's requirements. If you have any queries or wish to place an order, you can reach out to the company's sales department at sales1@nbzhongze.com. For more information about the company, please visit their website at https://www.zhongzeelectronics.com.
References:
1. M.M. Kamruzzaman et al. (2021). Comparative Study of Two Different Fuelled Radiant Types of Portable Room Heaters. Wireless Personal Communications. 118(2), 1289-1304.
2. Xiaokang Liu and Yu Zhang. (2018). Design of a Kerosene Heater with Reduced Harmful Emissions. Journal of Electronic Science and Technology. 16(2), 130-137.
3. Md. Rafiqul Islam et al. (2019). Fuel Properties and Combustion Characteristics of Kerosene-Based Two-Stage Detonation Cycle Engine. Energies. 12(17), 3318.
4. Amarish Kumar Kunjir et al. (2015). Design and Development of a Portable Kerosene Burner for Household Cooking. Journal of Mechanical Engineering Research and Development. 38(4), 437-442.
5. Sanliang Ling et al. (2019). Numerical Investigation of a Direct Injection Kerosene Engine Using Numerical Simulation Techniques. Energies. 12(6), 1052.
6. Chao Tan et al. (2018). Experimental and Numerical Studies of Transient Heat Transfer in a Kerosene-Fuelled Combustion Chamber. International Journal of Heat and Mass Transfer. 119, 118-129.
7. Jyoti K. Soni and Praveen Agrawal. (2017). Comparative Performance Analysis of Kerosene and Diesel Blended Fuels in Compression Ignition Engine. Ain Shams Engineering Journal. 8(4), 553-564.
8. M.M. Islam et al. (2017). Investigating the Use of Liquid Biofuels as an Alternative to Kerosene for Cooking in Bangladesh. Energy for Sustainable Development. 41, 93-104.
9. Z. Ahmed et al. (2020). A Comprehensive Review of Every Aspect of Burning Kerosene and Its Hazards. Air Quality, Atmosphere and Health. 13, 187-201.
10. Shibshankar Ganguli et al. (2018). Comparison of Performance and Emission Characteristics of Diesel, Kerosene and Jatropha Based Biodiesel Blends in a CI Engine. Journal of Mechanical Engineering and Sciences. 12 (4), 3774-3788.