Understand the structural features of the sprayer

In the field of road sanitation, the emergence of spray trucks has become a well-known phenomenon. However, the spray trucks working on modern roads are more functional and more intelligent than traditional spray cars. As an urban road sanitation manager, it is necessary to have a scientific understanding of the structural features of the sprayer, which is of great help to us in managing or maintaining spray-specific vehicles in the future.


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The current process of spray trucks is no longer a traditional vehicle type. In addition to the road cleaning and dust removal tasks, it can also alleviate road haze phenomenon to a certain extent. In particular, the newly-launched sprayer has a strong wind power, a long spray range, and a wide range of spray coverage. The vehicle's working efficiency is relatively high. When sanitation workers drove vehicles to spray road dust, an anti-traditional spray vehicle was cumbersome to operate, and the underground movement of mobility was replaced by a modern intelligent operation mode, which saved the flow and effort for traditional manpower driving. It is during the road work that the sanitation management personnel drives the vehicle in the cab. The vehicle driving position adopts the remote control technology of up and down, left and right, and the overall comparison of its traditional mechanical operation has become more convenient, safe and smart.

The most important thing is when the spray truck is working on the road, it no longer wants a single dust removal and spray pattern like the traditional sprayer. Instead, it can flexibly mobilize the spray direction while working on the road, achieving constant spray, low-volume spray, ultra-low-volume spray, and other forms of work.

Let's talk about the energy use and consumption of the sprayer body. The newly-listed sprayer can use 380 volts of mains electricity for energy use, and is fixedly installed on a platform that can lift or cast concrete. It is also possible to use the supporting diesel generator set power supply equipment and install it on an ordinary transportation vehicle. Therefore, the energy usage of the sprayer is very flexible and energy-saving, which solves the dependence of traditional vehicles on fixed energy, and greatly improves the convenience and safety performance of driving the vehicle.


Inorganic Acid

Inorganic acids, also known as mineral acids, are a general term for acids in inorganic compounds. Inorganic acids, in general, are inorganic compounds that can dissociate hydrogen ions. A compound consisting of hydrogen and a non-metallic element or a group thereof. For example, hydrochloric acid (HCl), nitric acid (HNO3), boric acid (H3BO3), sulfuric acid (H2SO4), carbonic acid (H2CO3), phosphoric acid (H3PO4) and the like.

According to the composition, inorganic acids can be divided into oxygen-containing acids, anaerobic acids, complex acids, mixed acids, superacids, etc., according to the degree of dissociation, can be divided into strong acids and weak acids, but also according to the number of hydrogen ions in the molecule can be ionized into monobasic acids, dibasic acids and polyacids.

Inorganic acids are mostly used to provide hydrogen ions.

Inorganic acids are divided into inorganic hydrogenic acids and inorganic oxygenated acids according to their composition.
The general formula of hydroic acid is MHm, the structure is relatively simple, it is some hydride of the periodic table, the group of elements. They are in an aqueous solution, can give protons, appear acidic.
For hydrogenic acid, the higher the electronegativity of its central atom M, the stronger the ability to attract electrons, the easier it is to give protons, and the stronger its acidity. For the same cycle, as the family of M changes, the electronegativity of M gradually increases in the sequence, and the acidity of its corresponding MHm is gradually enhanced.
Contains grade acids
The general formula for oxygenated acids is XOm(OH)n, where X is the central atom.
The structure of the oxygenated acid is more complex than that of the hydroacid, and its structure is related to the number of cycles in which the central atom X is located. In the second cycle, H3BO3,H2CO3, HNO3, and BO32-, CO32-,NO3- are planar structures that contain out-of-bound π bonds.




Inorganic Acid,Inoragnic Acid Chemicals,Acidity Chemicals,Acids Compound,Acids And Bases

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