First, the source of sulfur dioxide gas
SO 2 is currently the most harmful of air pollutants. China's annual emissions reached 15.2 million tons, ranking third in the world, causing environmental pollution and waste of sulfur resources.
Gold in the production process, SO 2 gas from the main sulfur ore. Flue gas containing SO 2 roasting pyrite, gold concentrate and the generated Alchemy.
Second, the purification and recovery of sulfur dioxide flue gas
(1) Recovery of high concentration sulfur dioxide gas
Such a sulfur dioxide flue gas contains a SO 2 concentration of 3.5% (volume percentage: V SO2 /V air) or more as a high concentration SO 2 flue gas. The contact method is used to produce sulfuric acid, which is free from pollution in the effluent atmosphere, and at the same time, the recovery of flue gas into a product, which has both economic benefits and air purification.
(2) Treatment of low concentration sulfur dioxide gas
1. Low-concentration SO 2 -containing flue gas, using high-altitude emission measures (usually a high chimney of about 50 m). However, in the case of rainy weather and low air pressure, SO 2 gas will be particularly sensitive to crops and fruit trees and vegetables, especially vegetables and beans. Therefore, it needs to be processed.
2, limestone - lime method
Purifying the exhaust gas with lime to remove SO 2 is the most effective conventional method. In some cases, when the concentration of SO 2 to be removed is very low, it is effective to use sodium hydroxide or sodium carbonate.
Although lime-purified exhaust gas can meet atmospheric regulations, there is a problem of handling gypsum solid waste generated by the reaction of SO 2 with lime. Gypsum produced, which may have other harmful elements such as arsenic , cadmium , lead , mercury, etc.
SO 2 emissions regulations vary widely across states in the United States. The following formula is used by the US state of Nevada to calculate the allowable sulfur emission formula (because Nevada has found a large number of difficult-to-lead gold deposits):
E=0.292×P 0.904
Where: E - allowable sulfur (S) emissions, kg / h;
P—Total sulphur (S) emissions in minerals, kg/h.
It should be noted that the above formula represents the emission of sulfur; in order to obtain the allowable amount of SO 2 emissions, the above formula E must also be multiplied by 2. In addition, the sulfur in the feed is indicative of total sulfur, including sulfur in the sulfide and other sulfur compounds.
If the above formula for sulfur emissions indicates that there is an equivalent of 250 tons of SO 2 emissions per year, then the roasting operation will be subject to lengthy and expensive “point emissions” reviews. Therefore, it is desirable to keep the SO 2 emissions below 250 t.
If the amount of SO 2 produced by the calcination is large, a highly efficient purification system is required to ensure that the SO 2 emissions are less than 250 t. In order to achieve such high purification efficiency, it is not technically feasible or expensive. Of course, if the amount of SO 2 in the exhaust gas is reduced, only a lower purification efficiency is required. As described above, any amount of SO 2 that is fixed by reacting with CaO or MgO upon firing will reduce the amount of SO 2 entering the exhaust gas. Therefore, it is important to evaluate and increase the fixation of SO 2 when testing according to the roasting scheme.
3. Activated carbon dry recovery
The Changsha Mine Research Institute believes that the use of activated carbon to recover SO 2 by experiments is not only technically feasible, but also has certain economic benefits.
Third, sodium alkali absorption treatment and recovery of sulfur dioxide
The sodium alkali absorption method uses Na 2 CO 3 or NaOH to absorb SO 2 in the flue gas, and a higher concentration of SO 2 gas and Na 2 SO 4 can be obtained.
Alkaline absorbent has more advantages: (1) the absorbent does not volatilize during the washing process; (2) has higher solubility; (3) there is no scaling and clogging problem in the absorption system; (4) high absorption capacity . According to different regeneration methods, there are sodium sulfite circulation method, sodium salt-acid decomposition method, and sodium sulfite method. Among them, the sodium sulfite cycle-thermal regeneration method develops rapidly.
The sodium sulfite cycle method uses NaOH or Na 2 CO 3 solution as the initial absorbent to absorb SO 2 in the flue gas at a low temperature, and generates Na 2 SO 3 , and Na 2 SO 3 continues to absorb SO 2 to form NaHSO 3 , which will contain The absorption liquid of Na 2 SO 3 -NaHSO 3 is thermally regenerated, releasing pure SO 2 gas, which can be sent to prepare liquid SO 2 or sulfuric acid and sulfur, and the Na 2 SO 3 crystal is obtained by heating and regeneration, and separated by solid-liquid separation. It is dissolved in water and returned to the absorption system.
Fourth, the adsorption method removes sulfur dioxide
Common activated carbon adsorbent, activated coal, activated alumina, zeolite, silica gel adsorbing SO 2. The adsorption process has physical adsorption and chemical adsorption. The adsorbed SO 2 is resolved by heating or decompression.

CNC Milling

Difference Between CNC Milling and CNC Turning
CNC Milling and CNC Turning allow users to create patterns and add detail to metals that are impossible to do by hand. CNC Milling uses commands, codes programmed into the computer and set to run. The mill then drills and turns along axes to cut materials to dimensions entered into the computer. Computer programming allows machines to make precise cuts, users can manually override the CNC Machines to slow or speed up the process.
In contrast, CNC Turning uses computer-controlled machines to create a different final product. The process uses a single-point cutting tool that inserts parallel to the material to cut. The material is rotated at changing speeds and the tool cutting traverses to create cylindrical cuts with exact measurements. It is used to create circular or tubular shares from larger material pieces. It is an automated process and speeds can be adjustments for greater accuracy rather than turning a lathe by hand.
What parts need CNC Turning?
There is no question that CNC Milling and CNC Turning are very different processes that will in most cases end up with entirely different results. CNC Centres are ideal for short-run volumes and especially prototypes and parts that are below 2.5" while the turning centre can be able to work on parts that are over the 2.5" OD, they will need to be checked individually and depending on the volume of the parts that are being produced, it can have an upward impact on the price of production. Also, if the part is less than 1.25" OD, turning might not be the option for producing that part. However, it is important to note that the biggest factor that determines if the piece can be produced by CNC Turning is the volume. The higher the volume the less suitable the part is suitable to be produced by turning.

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