FRP/GRP flange:
FRP flange adopt contacted mold process, flange dimension depends on customers` requirements.
moulds for GRP/FRP pipe/tank:
1 Tank steel moulds: DN600~DN4000mm
FRP/GRP tank for HCL storage:
FRP/GRP tank be produced by computer control filament winding process, use different resins and fiberglass to satisfy client`s requirements.
FRP pipe, gas pipe for mine:
Properties: light weight, high strength, corrosion-resistant, smooth inner surface, good hydraulic property, good insulation, ageing-resistant, etc.
FRP/GRP absorption tower:
We use vinyl ester resin and fiberglass for material and filament winding for process in FRP gas absorption column production to sustain best quality performance. This purification tower adapts many types of equipment which are used for disposal of unhealthy waste gas. It's not only widely used, but also high efficiency of purification. Its equipment resistance is low (400-600pa), cost of operation is low. GRP FRP Pipe,Frp Grp Pipe Fiberglass Tank,FRP Pipe Gas Pipe for Mine,FRP Pipe Tank HEBEI SENUF MINMETALS CO. LTD , https://www.senufmachine.com
Canada's Nova Scotia's new Gass River lead and zinc plant (with a daily processing capacity of 1,500 tons). Treatment of carbonate-type lead-zinc ore (including 2.8% lead, 4.2% zinc), in the lead and zinc sorting operation, using zinc sulfate-sodium cyanide process, the lead concentrate grade is 72%, and the lead recovery rate is 94. %, zinc concentrate grade of 62%, 92% recovery of zinc, the magnesium oxide content of only 0.35% zinc concentrates. In the Soviet Union, a Sarahsk lead-zinc plant with a high oxidation rate of lead and zinc and containing more copper is added with ammonium cyanide and zinc cyanide-sodium sulfide-sodium cyanide. sodium silicate, to improve lead, zinc recovery, especially in the recovery of aluminum oxide is particularly effective.
The cyanide-free process for lead and zinc separation is in addition to the sulfite process (including SO 3 ) and sodium sulfite (North Brocken Hill, Australia), which are commonly used in various Japanese plants, and the Soviet Missourian lead-zinc plant. In the separation process of nitride-zinc sulfate, in the past one or two years, Japan and the Soviet Union reported two new lead-zinc sorting processes. Japan’s Zhongguang Jixiao et al. pointed out that the lead-zinc mixed concentrate was acidified and stirred in a 17% H 2 SO 4 solution at 30 ° C for 7 to 10 minutes to cause the surface of the galena to be subjected to H 2 SO 4 to form PbSO. 4 is suppressed, creating a new process for lead-zinc separation for lead-zinc sorting. The Soviet Kwaszinsk lead-zinc plant uses potassium manganese to completely replace sodium cyanide, which not only improves the grade of lead concentrate, but also reduces the amount of zinc in lead concentrate, and greatly simplifies the pharmaceutical system.
2. In the separation process of copper-lead lead-zinc-copper (sulfur) ore, except for the copper-lead and zinc-(sulfur) separation process, which is basically the same as the lead-zinc separation process, the main problem is concentrated in copper. The separation process of lead mixed concentrate. Copper - lead separation process are substantially three, i.e., suppression of copper cyanide is selected from lead, lead heavy chromate selected from copper and inhibition sulfite (and salts thereof) method. Currently, lead-zinc States metal ore dressing plant plurality gradually abandoned and conventional cyanidation method dichromate, to prevent the dissolved precious metal cyanide, to avoid cyanide, chromium-containing waste water.
Sulfuric acid does not inhibit chalcopyrite, porphyrite and chalcopyrite. Due to its cleaning of the copper mineral surface, it has the effect of activating copper minerals. The sulphite is not inhibited by the pure galena which is not cyanated, and the pH value of the slurry is less than or equal to 11. However, the galena with oxidized surface is strongly inhibited after pH >5. In the case of the same amount of sulfite of 1.5 kg / ton, galena is more suppressed as the surface oxidized degree of galena is deepened.
The above-mentioned selective inhibition of sulphite on copper and lead minerals is widely used in the industrial production of copper and lead separation. Due to the process of stirring, flotation and aeration of the slurry before separation of copper and lead, the surface of galena is differently programmed. Oxidized and thus inhibited by sulfite. In production practice, sulfite (or sulfurous acid) is often combined with other inhibitors to improve the sorting effect and stability. The main combinations are as follows:
(1) Sulfur Dioxide, Starch Method This method is adopted by the American St. Bridge Minerals Company, the San Francisco Mine, the McGonoughs, and the Brunswick Picking Plant in Canada. The copper-lead-zinc ore that is processed by the plant of the Trench of the Holy Bridge Minerals, such as the Krika, the Fugu, and the Nagano, has a copper-lead ratio of 30:1 to 50:1 or even 10 :1~100:1. Copper and lead are separated by sulfur dioxide and starch. Pre-separation pre-loading starch 0.25 ~ 0.5 kg / ton mixed, sulfur dioxide 1.5 ~ 3 kg / ton mixed, control the pulp pH value of 4.5 ~ 5, stirring 3 ~ 5 points, can lead to copper selection. The amount of sulfur dioxide and starch should be appropriate. If the sulfur dioxide is not enough, the starch will inhibit copper. [next]
(2) Sulfuric acid, slurry heating method In the weak acid circuit, the collector adsorbed on the surface of galena is preferentially desorbed with the slurry heated above 60 °C, and the collector adsorbed on the chalcopyrite will even The slurry is not desorbed when heated to 70 °C. Japan's Huagangtangwu and Songfeng and other plants have adopted the slurry heating method. The copper-lead mixed concentrate is blown into the steam, and the temperature of the slurry is raised to 60 ° C to carry out copper and lead separation. The raw ore grade copper in the small selection plant is 1.5% lead 1.6% and zinc 4.9%. The copper ore mixed flotation was carried out by controlling the pH of the slurry with calcium dioxide and calcium hydroxide. The copper-lead mixed concentrate is heated to 70 ° C, the pulp pH is 5.5, floating copper, and lead. The lead concentrate grade was 26%, the copper recovery rate was 81.8%, the lead concentrate grade was 58.1%, and the lead recovery rate was 70%.
(3) Sulfuric acid-sodium sulfide method This method can obtain better results for ores with high pyrite, high mud and secondary copper sulfide.
(4) Sodium thiosulfate (Na 2 S 2 O 3 )-ferric chloride method This method can inhibit the galena which is strongly activated by copper ions, and effectively separate the ore with complex composition. The Soviet Union's Czech Republic's selection of ore is complex, containing primary and secondary copper sulphide and copper oxide minerals. The galena is strongly activated by copper ions. In order to replace cyanide, no general sulfite method has been used. The Mihanopur Institute proposed that the Fe 3+ -S 2 O 3 2- method can achieve a stable sorting effect on mixed concentrates. In 1977, the industry of lead-free copper selection was carried out at the Czech Republic. The test achieved good indicators: the copper concentrate grade was 30.27%, the separation operation recovery rate was 90%; the lead concentrate grade was 68.5%, and the operation recovery rate was 97%. After improvement from 1979 to 1980, a series of semi-industrial and industrial tests were carried out with sodium thiosulfate and ferric chloride as galena inhibitors, which proved that the secondary copper and copper oxide were 20-25%. Sulfide ore can be effectively separated and achieve higher indicators.
(5) Nuchar separation method This method is a new separation method proposed at the 14th International Mineral Processing Conference. When dealing with difficult-to-select, low-grade copper-lead mixed concentrates, sulfurous acid-heating or dichromate is used. The inhibitory effect of the inhibitor decreases sharply with the increase in the content of sphalerite and pyrite in the separated ore. When the sulphurous acid-heating method is used, the presence of gangue mud reduces the floating speed of copper. The new separation method is to remove the copper-lead mixed concentrate with activated carbon, add an equal amount of mixture of sodium chromate and water glass, and add CMC to suppress lead. Compared with sulfur dioxide-heating method, the grade of copper concentrate in semi-industrial test increased from 27.8% to 28.7%, the recovery rate of copper in separation operation increased from 92.9% to 94.7%, and the lead in copper concentrate decreased from 3.71% to 0.6%. The recovery rate of lead was increased from 79.7% to 97.4%.
Other methods are not the South Korean North Lotus Mining's NaHSO 3 and the general cement combined lead-free copper selection process. Separation of the copper-lead mixed concentrate of the Belovsov of the Soviet Union was carried out by using H 2 SO 4 (800 g/ton) to suppress copper. And the copper-lead mixed concentrate with low copper content (lead 34.8% and copper 5.5%) in the Rajapura-Daribo deposit in Rajasthan, India. The effective inhibitor combination of galena is carbonic acid. A process such as a mixture of cerium , hydrofluoric acid and citric acid.
3. Zinc-sulfur sorting lead-zinc polymetallic ore flotation process, zinc-sulfur separation method, from the domestic and international dressing practice, most of the use of lime to inhibit iron sulfide minerals (pyrite and pyrrhotite). Copper sulfate activates sphalerite. A small number of cyanides are also used in individual plants during the separation of zinc and sulfur. It is worth noting that the Brunswick No. 12 Concentrator in Canada processes copper-lead-zinc ore using sulfur dioxide to lower the pH (4.5 to 4.8) and uses a steam heating method from a mixture of lead, zinc, copper and FeS 2 . Only flotation of pyrite in the mine (flotation pH of 5.0 to 5.3) improves the sorting effect and increases the lead concentrate grade by 8%. The West Germany Megan Plant uses a similar method to heat the zinc-sulfur mixed concentrate slurry to 80 ° C, treat it with sulfur dioxide at a pH of 4.6, inhibit sphalerite, flotation of pyrite, and make zinc concentrate. The grade increased by 7% to 55%.
FRP elbow
FRP tee
FRP reducer
FRP slip-on flange
FRP fittings
2 Pipe steel moulds: DN25~DN2500mm
3 Flange steel moulds: DN25~DN1000mm
4 Elbow steel moulds: DN25~DN300mm.
corrosion-resist, inner liner resin-rich layer, suitable resin be selected depends on different mediums, resin content is 90%.
Smooth inner surface, the roughness coefficient is 0.0084, easy to clean.
good sanitary property, foodgrade resin can be used for foodstuff, brewing etc industries.
Easy to form different shape, can match different accessories, like handrail, ladder, level indicator etc.
`s be widely used for chemical, power, dyeing, metallurgy, petrochemical, seawater desalination, fume desulfurization, waste gas treatment etc different industries.
Application: gas drainage under mine, water supply and drainage under mine, prospecting water hole pipe, etc.
Specification: DN10~DN4000
Pressure class: 0.25,0.6,1.0,1.6,2.0,2.5MPa
Type of pipeline joint: flanged joint, slip-on flanged joint, spigot and socket joint, etc.
Length of single pipe: 6m, 12m, or custom-made according to customer`s requirements.
Advantage
1.High mechanical strength ,temperature and corrosion resistance
2.. Small resistance, low energy consumption
3. high purification efficiency ,stable performance and applicable range
4. Simple structure and light weight, easy to transport and maintain
Polymetallic lead-zinc ore beneficiation separation method
1. The lead-zinc separation lead - zinc separation method is simpler, and satisfactory results are obtained using zinc sulfate. However, this situation is rarely seen. This is because the lead-zinc ore than lead addition and sometimes sphalerite contaminated with calcium ions, often associated with a pyrite. In particular, a sulphur-zinc ore of a pyrite-type lead-zinc ore has an iron sulfide content of 60 to 70% or more. Thus, it is difficult to separate lead from zinc and sulfur minerals by using only zinc sulfate to obtain a better sorting effect. In addition, in the case of external lead-zinc- copper or lead-zinc-copper-sulfur ore, when the ore contains secondary copper sulfide minerals, a large amount of copper ions in the pulp activates the sphalerite, which is more difficult to use in this case. The above method inhibits it. From the perspective of foreign mineral processing practice, the separation of lead and zinc is still dominated by the cyanidation process of zinc-reducing lead. Among them, the sodium cyanide-zinc sulfate method is more common, followed by the sodium cyanide-sulfuric acid method. In the latter, the secondary copper content is higher, and the ore containing more mud tends to obtain a better sorting effect.