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Cyclohexanol phenol, also known as hexahydro. Colorless viscous liquid, boiling point 161.1 ℃, freezing point of 25.15 ℃. Mainly used to prepare cyclohexanone (further Preparation of caprolactam), and adipic acid, also for the Preparation of plasticizer (eg, cyclohexyl phthalate esters), surfactants, and as industrial solvents.

Chinese name: English name of cyclohexanol: cyclohexanol 2 Chinese name: English name of six hydrogen phenol 2: hexahydrophenol CAS No.: 108-93-0 Molecular formula: C6H12O Molecular Weight: 100.16 Physical and Chemical Characteristics of the main ingredients: pure appearance and character: colorless with camphor odor, crystal or liquid. Melting point (℃): 25.2 Boiling point (℃): 160.9 Relative density (water = 1): 0.9624 Relative vapor density (air = 1): 3.45 Vapor Pressure (kPa): 0.13 (21 ℃) heat of combustion (kJ / mol) : 890.7 Flash point (℃): 67 Ignition Temperature (℃): 300 refractive index: 1.465 Solubility: slightly soluble in water, can dissolve in alcohol, ether, benzene, ethyl acetate, carbon disulfide, oils and so on. Main use: used for making adipic acid, plasticizer and detergent, etc., are also used solvents and emulsifiers. Health Hazards: Under normal production conditions, the possibility of acute poisoning caused by steam inhalation small. This product is in the air when the concentration of 40mg/m3, human eyes, nose and throat have a stimulating effect. This liquid product can stimulate the skin, contact can cause dermatitis, but very slowly absorbed through the skin. Oral intake of toxicity. Explosion risk: The product burning, with irritation. Hazardous characteristics: case of fire, combustible high fever. Can react with oxidants. In case of high fever, increased pressure within the container, there is cracking and explosion.

O-cresol, also known as: o-cresol, o-methyl phenol, 2 – methyl phenol, 2 – hydroxy -1 – toluene, 2 – cresol, o-hydroxy toluene; o-cresol is the second isomer cresol body. O-cresol is mainly used for synthetic resin, can also be used to produce pesticides MCPA herbicide, disinfectant in medicine, perfume and chemical agents and antioxidants, with its downstream products are o-cresol phenolic resin, synthetic resin, o-methyl salicylic acid, o-cresol on the chloride, benzaldehyde, 2 – methyl -5 – isopropyl phenol and antioxidant. In addition, sebacic acid production can also be used for thinners, disinfectants, and plasticizers.

Part of this reporting technology sulfate heptahydrate nickel production and technological progress Gong Yi made a detailed presentation from process theory, process, process, reaction mechanism, Fu reaction Ji preventive measures, Shebei, Gangweidingyuan, Chengbengusuan, Huan Jing protection, technical features, product quality standards, and many other aspects of the depth, can be for domestic technical development of nickel sulfate heptahydrate reference; this report by reference to a large number of patent documents on the nickel sulfate heptahydrate made progress in process technology system introduced.

      Market segments of this report from the use of nickel sulfate heptahydrate, downstream products, production status at home and abroad, the potential of domestic manufacturers, foreign manufacturers and the scale of domestic production trends and forecast market conditions, supply and demand analysis and forecasting, pricing and import export performance, distribution of domestic and foreign markets, domestic demand and contact manufacturers, foreign demand for Chang Jia and many other statistics and potential customers in terms of nickel sulfate heptahydrate Di market conditions and a detailed Lunshu Fazhanfangxiang Zuo, can Zuowei 7 market Xiaoshou nickel sulfate , customer development, product processing and other aspects of important reference information.

      The last part of the report of nickel sulfate on the seven technology development, investment, production and sales guidance put forward suggestions.

Chapter I: Introduction of nickel sulfate heptahydrate

      Section I: Product Overview

      Section II: Product Description

      Section III: Physical and Chemical Properties

      Section IV: Technical Indicators

Chapter: 7 Nickel sulfate production process and technical progress at home and abroad

      Section I: Introduction foreign and domestic production technology

      Section II: domestic and international core production technology details

              1) Process Principles

              2) process

              3) Process

              4) Equipment List

              5) post Dingyuan

              6) cost accounting

              7) Environmental protection

              8) technology features

              9) Product quality standards

              10), project feasibility analysis

      Section III: Comparison of advantages and disadvantages of various production methods

      Section IV: Recent Advances in production technology

Chapter III: use of nickel sulfate heptahydrate

      Section I: Summary of purpose

      Section II: Analysis of downstream products

      Section III: Application of the latest progress at home and abroad

Chapter IV: 7 of nickel sulfate production situation and manufacturers at home and abroad

      Section I: domestic production situation

      Section II: the scale of domestic manufacturers and

      Section III: the scale of foreign manufacturers and

      Section IV: Trends of domestic production

Chapter Five: Market nickel sulfate heptahydrate

      Section I: Market Analysis and Forecast

      Section II: Analysis and Forecast of supply and demand

      Section III: Price Analysis

      Section IV: Imports and Exports

Chapter: Sales Planning nickel sulfate heptahydrate

      Section I: Distribution of domestic and foreign markets

      Section II: domestic demand and contact manufacturers

      Section III: manufacturers and foreign demand contact

      Section IV: Analysis of potential customers

Chapter VII: nickel sulfate heptahydrate technology development, investment, production and sales of Notes

      Section I: Technology Development Notes

      Section II: Investment Note

      Section III: Production Notes

      Section IV: Product sales Attention

Chapter VIII: References

Annex I: Bing Qi Chemical Network Profile

Annex II: Report of the ordering process

Annex III: Contact

Table 1: basic properties of nickel sulfate heptahydrate

Table 2: Specifications of nickel sulfate heptahydrate

Table 3: nickel sulfate heptahydrate Equipment List

Table 4: Production of nickel sulfate heptahydrate estimated costs and benefits

Table 5:2010 seven years of domestic producers of nickel sulfate and scale of production statistics

Table 6:2010 seven years abroad, the manufacturer of nickel sulfate and scale of production statistics

Table 7:2003 -2 009 years, seven years of global production of nickel sulfate Statistics

Table 8:2010 -2 014 years, seven years, global demand forecast of nickel sulfate

Table 9:2010 seven years of domestic primary production of nickel sulfate latest prices

Table 10: Seven of nickel sulfate in the application of industry market share

Table 11: Seven of nickel sulfate and contact manufacturers of domestic demand

Table 12: Foreign demand for nickel sulfate heptahydrate manufacturers and Contact

Table 13: Nickel sulfate heptahydrate operating companies at home and abroad

Figure 1: 7 Flow chart of the production of nickel sulfate

Figure 2: Nickel sulfate heptahydrate in the international market, market share by region

Figure 3:2003 -2 009 years, seven years, the trend of global production of nickel sulfate

Figure 4:2010 -2 014 years, seven years, global production of nickel sulfate Trend Forecast

Figure 5: the chemical structure of nickel sulfate heptahydrate or product images

Figure 5-n: 7 downstream products of nickel sulfate chemical structure or product images

      Bing Qi mainly pharmaceutical and chemical intermediates, pesticide intermediates, paint pigments and dyes intermediates, flavors and fragrances and intermediates, food additives, feed additives, chemical products, polymer monomers and polymers, chemical additives , organic chemical materials, inorganic chemical raw materials for the research object, to provide customers from the production technology, market conditions, uses and downstream products, domestic and foreign status (factory, production, prices), domestic and foreign demand for factory and contact information of all aspects consultation. Bing Qi chemical has the best database system, covering pharmaceuticals, pesticides, paints, dyes, flavors and fragrances of food additives, feed additives, chemical products, polymer monomers and polymers, chemical additives, organic chemicals, inorganic chemicals raw materials, production technology and market price information to help you in the shortest possible time, get the latest product information.

Investment 1 million tons / year of coal to olefins project into production in 2015

Luo Yi from Beijing reporter

TOTAL layout of coal chemical industry in China will take a substantive step.

The afternoon of August 25, 2010, China Coal Chemical Industry Exhibition space, Total Petrochemicals Fan Kang, senior vice president of polyolefin (Carl Van CAMP) said, “Total planned investment in Inner Mongolia, a world-class coal-to-olefins project , production capacity is 100 tons / year. At present, Total, already partners with Chinese coal chemical project completed this pre-feasibility study report. If all goes well, the project will be put into operation in around 2015. ”

Currently, Total Petrochemicals has decided to a large state-owned enterprises in China to work together to maximize the complementary strengths to play to, but he did not disclose the name of the company.

Total Petrochemicals China’s vice president of strategy and project development Ji Yong (GuillauME LESAGE) said, “As partners in China specializes in coal mining and coal gasification [17.22 1.89%], Total Petrochemicals is mastered the production of polyolefins technology, will coal-based end products to better meet the needs of the market provide an important safeguard. ”

For this project, Total has already started preparing.

A year ago, Total Petrochemicals in Belgium in its Feluy cost 45 million euros in the MTO-OCP demonstration unit to test the integration of technology. It is the world’s first set of MTO, OCP and aggregation devices in the same production line of semi-industrial installations. The line out from about 60% of olefin propylene, other ethylene, which is the global polypropylene (PP) of current strong demand for fit.

Fan Kang said, “the pilot plant will be in 6 months to achieve preset goals for laying a good foundation for large-scale business promotion, can be used to enlarge an annual output of 1 million tons of olefins MTO world-class project.”

This reporter learned that Total Petrochemicals’s business model is built on used in the inland areas, subject to bottlenecks in coal transportation resources in Inner Mongolia to become the preferred address of the project.

Total, that the use of these in the economic or technological development of limited use of other energy is Total Petrochemicals one of the main features of the project. In this way, coal polyolefins project to better control costs, and will not affect China’s strong demand for energy.

Fan Kang also said that the new project will focus on high-end market, providing dedicated, specific polyolefin products, rather than the generic model.

But in recent years the Middle East, the impact of cheap alcohol, so that the outside world to local coal as raw material, coal chemical project in doubt earnings outlook.

“Although the price of cheap imported alcohol, but the fluctuations are frequent. If the future situation of excessive price increases occur, the cost of the project impact will be increased. And according to estimates, as long as the oil price at 80 U.S. dollars / barrel or more, our project on can be profitable. “Fan Kang said.

On the other hand, due to higher carbon dioxide emissions, including new projects, including Total, the coal chemical industry in general is facing pressure to reduce emissions, the domestic has emerged after 2012, calls for the introduction of a carbon tax. If in the future carbon tax, coal chemical industry will bring some costs.

In this regard, Fan Kang said that TOTAL’s project will be launched supporting carbon capture and storage (CCS) devices.

Asia-based consulting analysts believe that economic efficiency point of view how to reduce carbon dioxide emissions, will be China’s coal chemical industry, common problems.

SINGAPORE Bloomberg, Dushanzi ethylene plant recovery of surplus low pressure methane, and carbon dioxide gas emissions analysis delivered to methanol plant as raw material, so that the production of materials used methanol plant is recycling all waste. April 27, according to the statistics, the monthly savings of more than 240 million cubic meters of natural gas (standard state, the same below), the monthly cost more than 250 million.

The annual output of 30,000 tons of ethylene plant methanol plant using natural gas low-pressure methanol synthesis process, due to tight supply of natural gas, methanol plant has been unable to reach full capacity, the device yield and low yield, high energy consumption. In 2009 with one million tons Dushanzi ethylene plant started production, there is a surplus situation ethylene plant exhaust, old liberated areas ethylene gas low-pressure methane and ethylene fuels no where; hydrogen plant transformation is put into use analytical gas emissions torch; old liberated ethylene plant alkali waste sent to New vinyl, the spent caustic oxidation unit outage, ethylene glycol unit surplus of carbon dioxide, into the atmosphere.

To reduce the losses caused by exhaust emissions, combined with methanol plant process characteristics, the plant built a recycling plant, running at full capacity, so that each year ethylene plant to reduce the surplus to the low pressure flare methane, fuel gas and analytical gas about 39.9 million cubic meters, while annual reduction of about 4.62 million cubic meters of carbon dioxide emissions.

Gas utilization project implementation and put into use, so that four shares of the ethylene plant tail gas recovery and utilization of the full, and the elimination of the methanol plant capacity due to inadequate gas supply device conflict, after the change of methanol feedstock, natural gas consumption to zero, a annual savings of 29.82 million cubic meters of natural gas, cost 31.31 million yuan each year, creating considerable economic benefits.