Tuesday, October 20, 2020

The new report by Procurement Resource, a global procurement research and consulting firm, looks in-depth into the costs involved in the production of tetrahydrofuran. The comprehensive report analyses the production cost of the material, covering raw material costs and co-product credit, equipment costs, land and site costs, labour wages, maintenance costs, financing charges, and the depreciation cost. The extensive study describes the step-wise consumption of material and utilities, along with a detailed process flow diagram. The report also assesses the latest developments within the tetrahydrofuran industry that might influence the costs of production, looking into the capacity expansions, plant turnarounds, and mergers, acquisitions, and investments.

Download a free sample of the production cost of tetrahydrofuran from butanediol and many more@ https://www.procurementresource.com/cost-analysis/tetrahydrofuran-production-from-butanediol

Tetrahydrofuran is an organic compound, specifically a cyclic ether. It is found as a water miscible organic liquid with low viscosity and appears colourless. Its main usage is as a precursor to polymers, which means that it is extensively used in the chemical industry. It is a versatile solvent for synthetic and natural resins. It is used as a solvent in the production of polymers like nylon and PVC.

The lifting of the COVID-19 pandemic induced lockdown measures and government regulations becoming comparatively easier than before has created significant growth opportunities for the global tetrahydrofuran market. With the rising concerns related to sanitation and health, the tetrahydrofuran market has seen new opportunities due to its applications in the pharmaceutical industry. With the reestablishment of the chemical sector to normal operating rates across the globe post the COVID-19 restrictions, the demand for tetrahydrofuran has witnessed a further increase due to its application as a solvent in producing other important polymers. These factors are expected to influence the production cost for tetrahydrofuran.

Read the full production cost analysis report of tetrahydrofuranhttps://www.procurementresource.com/production-cost-report-store/tetrahydrofuran

The production cost report by Procurement Resource assesses the production of tetrahydrofuran via butanediol. In the most common method, 1,4-butanediol undergoes acid-catalysed dehydration to produce tetrahydrofuran. Zirconium sulphate can be used as a catalyst in the process.

About Us:

Procurement Resource ensures that our clients remain at the vanguard of their industries by providing actionable procurement intelligence with the help of our expert analysts, researchers, and domain experts. Our team of highly seasoned analysts undertake extensive research to provide our customers with the latest and up-to-date market reports, cost-models, price analysis, benchmarking, and category insights, which aid in simplifying the procurement process for our clientele. We work with a diverse range of procurement teams across industries to get real-time data and insights that can be effectively implemented by our customers. We also track the prices and production costs of an extensive range of goods and commodities, thus, providing you with the updated and reliable data. We, at Procurement Resource, with the help of the latest and cutting-edge techniques in the industry, help our clients understand the supply chain, procurement, and industry climate, so that they can form strategies which ensure their optimum growth.

Media Contact

Company Name: IMARC
Contact Person: Chris Byrd, Corporate Sales Specialist – U.S.A.
Email: sales@procurementresource.com
USA:- +1-213-316-7435
India:- +91 8586081494
Europe & Asia:- +44 702-402-5790
Address: 30 N Gould St, Sheridan, WY 82801, USA.
Country: United States
Follow us on twitter: @procurementrs
Website: https://www.procurementresource.com

Tuesday, October 13, 2020

The new report by Procurement Resource, a global procurement research and consulting firm, looks in-depth into the costs involved in the production of succinic acid. The comprehensive report analyses the production cost of the material, covering the raw material costs and co-product credit, equipment costs, land and site costs, labour wages, maintenance costs, financing charges, and the depreciation costs. The extensive study describes the step wise consumption of material and utilities along with a detailed process flow diagram. The report also assesses the latest developments within the succinic acid industry that might influence the costs of production, looking into the capacity expansions, plant turnarounds, and mergers, acquisitions, and investments.

Download a free sample of the production cost of succinic acid from raw sugar and many more@ https://www.procurementresource.com/cost-analysis/succinic-acid-production-from-raw-sugar

Succinic acid is an acidulant, which is also known as butanoic acid, and is a type of dicarboxylic acid. It is mostly found in plants and animal tissues. It is a non-hygroscopic acid that has a low acid strength and slow taste build-up. It is primarily used as an acid regulator in the food and beverage sector. It is also used to control acidity and is an excipient in pharmaceutical products.

The succinic acid market was anticipated to grow at a healthy rate in the year 2020, but since the COVID-19 has struck the world, resulting in lockdown all over Asia, Europe, and the United States of America, the demand from the food and beverage industry has declined, affecting the growth of the market. However, the demand is somewhat compensated by the pharmaceutical industry. It is also anticipated that once the lockdown is lifted, the growth of the succinic acid market will revive. These factors are expected to influence the production cost of succinic acid.

Read the full production cost analysis report of succinic acid@ https://www.procurementresource.com/production-cost-report-store/succinic-acid

The production cost report by Procurement Resource assesses the production of succinic acid via raw sugar, via glucose, via glycerol, and via maleic anhydride. Succinic acid is obtained from raw sugar using the fermentation process. In this process, the raw sugar is diluted and is hydrolysed into glucose and fructose, forming invert sugars. he invert sugars, thus formed, are further fermented to produce succinic acid.

About Us:

Procurement Resource ensures that our clients remain at the vanguard of their industries by providing actionable procurement intelligence with the help of our expert analysts, researchers, and domain experts. Our team of highly seasoned analysts undertake extensive research to provide our customers with the latest and up-to-date market reports, cost-models, price analysis, benchmarking, and category insights, which aid in simplifying the procurement process for our clientele. We work with a diverse range of procurement teams across industries to get real-time data and insights that can be effectively implemented by our customers. We also track the prices and production costs of an extensive range of goods and commodities, thus, providing you with the updated and reliable data. We, at Procurement Resource, with the help of the latest and cutting-edge techniques in the industry, help our clients understand the supply chain, procurement, and industry climate, so that they can form strategies which ensure their optimum growth.

Media Contact

Company Name: IMARC
Contact Person: Chris Byrd, Corporate Sales Specialist – U.S.A.
Email: sales@procurementresource.com
USA:- +1-213-316-7435
India:- +91 8586081494
Europe & Asia:- +44 702-402-5790
Address: 30 N Gould St, Sheridan, WY 82801, USA.
Country: United States
Follow us on twitter: @procurementrs
Website: https://www.procurementresource.com

The new report by Procurement Resource, a global procurement research and consulting firm, looks in-depth into the costs involved in the production of paper cups. The comprehensive report analyses the production cost of the material, covering the raw material costs and co-product credit, equipment costs, land and site costs, labour wages, maintenance costs, financing charges, and the depreciation costs. The extensive study describes the step wise consumption of material and utilities along with a detailed process flow diagram. The report also assesses the latest developments within the paper cup industry that might influence the costs of production, looking into the capacity expansions, plant turnarounds, and mergers, acquisitions, and investments.

Download a free sample of the production cost of paper cups from pulping bleaching and heating and many more@ https://www.procurementresource.com/cost-analysis/paper-cups-production-from-pulping-bleaching-and-heating

Paper cups are disposable cups comprising of paper that is often lined or coated using plastic or wax in order to prevent any liquid from leaking out or soaking through the paper. They are often made from recycled paper and are used all around the world. Their bases are coined as cupboards that are made on special multi-ply paper machines. They are also barrier coated for waterproofing.

As the COVID-19 crisis has brought nervous times among people across the continents, restrictions have been imposed in order to contain the situation. Due to this reason, the paper cups industry has faced a slump in 2020. The situation is likely to improve as the restrictions imposed are being lifted, and the food and beverage industry is likely to witness an upsurge. Therefore, a considerable demand for paper cups is on the cards in the coming years. The demand for paper cups is also likely to witness an increase in the coming years due to the rapid introduction of plastic bans across the globe. These factors are expected to influence the production cost of paper cups.

Read the full production cost analysis report of paper cupshttps://www.procurementresource.com/production-cost-report-store/paper-cups

The production cost report by Procurement Resource assesses the production of paper cups via pulping, bleaching, and heating processes. In this process, wood chips are turned into wood pulp and mashed into paper and bleached, using chemicals like chlorine and sodium hydroxide. A thin layer of plastic or wax is applied on the paper to make it waterproof. It is then rolled into a cup shape and heated to seal the plastic on the paper to produce a paper cup.

About Us:

Procurement Resource ensures that our clients remain at the vanguard of their industries by providing actionable procurement intelligence with the help of our expert analysts, researchers, and domain experts. Our team of highly seasoned analysts undertake extensive research to provide our customers with the latest and up-to-date market reports, cost-models, price analysis, benchmarking, and category insights, which aid in simplifying the procurement process for our clientele. We work with a diverse range of procurement teams across industries to get real-time data and insights that can be effectively implemented by our customers. We also track the prices and production costs of an extensive range of goods and commodities, thus, providing you with the updated and reliable data. We, at Procurement Resource, with the help of the latest and cutting-edge techniques in the industry, help our clients understand the supply chain, procurement, and industry climate, so that they can form strategies which ensure their optimum growth.

Media Contact

Company Name: IMARC
Contact Person: Chris Byrd, Corporate Sales Specialist – U.S.A.
Email: sales@procurementresource.com
USA:- +1-213-316-7435
India:- +91 8586081494
Europe & Asia:- +44 702-402-5790
Address: 30 N Gould St, Sheridan, WY 82801, USA.
Country: United States
Follow us on twitter: @procurementrs
Website: https://www.procurementresource.com

The new report by Procurement Resource, a global procurement research and consulting firm, looks in-depth into the costs involved in the production of polylactic acid. The comprehensive report analyses the production cost of the material, covering the raw material costs and co-product credit, equipment costs, land and site costs, labour wages, maintenance costs, financing charges, and the depreciation costs. The extensive study describes the step wise consumption of material and utilities along with a detailed process flow diagram. The report also assesses the latest developments within the polylactic acid industry that might influence the costs of production, looking into the capacity expansions, plant turnarounds, and mergers, acquisitions, and investments.

Download a free sample of the production cost of polylactic acid from meltphase polymerization and many more@ https://www.procurementresource.com/cost-analysis/polylactic-acid-production-from-meltphase-polymerization

Also known as PLA, polylactic acid is a thermoplastic polyester derived from renewable resources. Globally, it is one of the most significantly consumed bioplastics. PLA is a natural polymer designed to substitute widely used petroleum-based plastics like PET (polyethene terephthalate). In the packaging industry, PLA plastics are often used for plastic films and food containers.

Nowadays, some derivatives of polylactic acid are used in the manufacturing of biodegradable plastics, which has catalysed the market in recent years. The chemical has a high demand in the packaging industry across the continents. However, due to the disruption in the supply chain caused by the coronavirus pandemic, the demand is not as high as it was earlier estimated. However, once the lockdown is lifted and restrictions are eased, the market is likely to revive. The demand for PLA is highest in China as the country has a stable textile industry. In the coming years, stringent government regulations regarding plastic-use are expected to lead to a higher demand for bioplastics derived from polylactic acid. These factors are expected to influence the production cost of polylactic acid.

Read the full production cost analysis report of polylactic acid@ https://www.procurementresource.com/production-cost-report-store/polylactic-acid

The production cost report by Procurement Resource assesses the production of polylactic acid via melt-phase polymerisation. In this method, glucose and dextrose are fermented into lactic acid. It is then oligomerized and depolymerised into lactide, a cyclic dimer of lactic acid. Lactide is finally polymerised to form polylactic acid.

About Us:

Procurement Resource ensures that our clients remain at the vanguard of their industries by providing actionable procurement intelligence with the help of our expert analysts, researchers, and domain experts. Our team of highly seasoned analysts undertake extensive research to provide our customers with the latest and up-to-date market reports, cost-models, price analysis, benchmarking, and category insights, which aid in simplifying the procurement process for our clientele. We work with a diverse range of procurement teams across industries to get real-time data and insights that can be effectively implemented by our customers. We also track the prices and production costs of an extensive range of goods and commodities, thus, providing you with the updated and reliable data. We, at Procurement Resource, with the help of the latest and cutting-edge techniques in the industry, help our clients understand the supply chain, procurement, and industry climate, so that they can form strategies which ensure their optimum growth.

Media Contact

Company Name: IMARC
Contact Person: Chris Byrd, Corporate Sales Specialist – U.S.A.
Email: sales@procurementresource.com
USA:- +1-213-316-7435
India:- +91 8586081494
Europe & Asia:- +44 702-402-5790
Address: 30 N Gould St, Sheridan, WY 82801, USA.
Country: United States
Follow us on twitter: @procurementrs
Website: https://www.procurementresource.com

The new report by Procurement Resource, a global procurement research and consulting firm, looks in-depth into the costs involved in the production of carbolic acid. The comprehensive report analyses the production cost of the material, covering the raw material costs and co-product credit, equipment costs, land and site costs, labour wages, maintenance costs, financing charges, and the depreciation costs. The extensive study describes the step wise consumption of material and utilities along with a detailed process flow diagram. The report also assesses the latest developments within the carbolic acid industry that might influence the costs of production, looking into the capacity expansions, plant turnarounds, and mergers, acquisitions, and investments.

Download a free sample of the production cost of carbolic acid from cumene-process and many more@ https://www.procurementresource.com/cost-analysis/carbolic-acid-production-via-the-cumene-process

Carbolic acid has a sweet and tarry odour. It is a transparent crystalline solid in appearance. It is used as a disinfectant, as an antiseptic, and in organic synthesis. Also known as phenol, it is one of the oldest antiseptic agents. Carbolic acid is used in many commercial products.

In India, there is a high demand for carbolic acid, especially in rural areas where it is used to prevent snake infestation. In overall Asia, the supply was tightened in the second quarter of 2020. Mitsui Phenol Singapore shut from March to April. India’s Deepak Phenolics was also shut during the country’s lockdown from March to April. South Korea’s Kumho P&B line 2 was shut in April and China’s Chang Chun Petrochemical was shut from late May. However, the major downstream derivatives like BPA, and PC still saw a high demand. Saudi Arabia’s Rabigh was also shut from late-February to mid-June. The European market was not hit hard as the supply was ample in the second quarter despite further reductions in the output from European producers. The coronavirus pandemic also led producers like Borealis and INEOS to postpone plant maintenance. These factors are expected to influence the production cost of carbolic acid.

Read the full production cost analysis report of carbolic acid@ https://www.procurementresource.com/production-cost-report-store/carbolic-acid

The production cost report by Procurement Resource assesses the production of carbolic acid via the cumene process, via the hydroperoxidation process, via toluene, and via benzene. In this process, benzene and propene react with each other in the presence of an acid catalyst to give cumene. Then, at a specific temperature and pressure, cumene is oxidised to produced cumene hydroperoxide. Sulphuric acid is added to hydroperoxide, which is followed by the neutralisation process to produce carbolic acid with propanone as a by-product.

About Us:

Procurement Resource ensures that our clients remain at the vanguard of their industries by providing actionable procurement intelligence with the help of our expert analysts, researchers, and domain experts. Our team of highly seasoned analysts undertake extensive research to provide our customers with the latest and up-to-date market reports, cost-models, price analysis, benchmarking, and category insights, which aid in simplifying the procurement process for our clientele. We work with a diverse range of procurement teams across industries to get real-time data and insights that can be effectively implemented by our customers. We also track the prices and production costs of an extensive range of goods and commodities, thus, providing you with the updated and reliable data. We, at Procurement Resource, with the help of the latest and cutting-edge techniques in the industry, help our clients understand the supply chain, procurement, and industry climate, so that they can form strategies which ensure their optimum growth.

Media Contact

Company Name: IMARC
Contact Person: Chris Byrd, Corporate Sales Specialist – U.S.A.
Email: sales@procurementresource.com
USA:- +1-213-316-7435
India:- +91 8586081494
Europe & Asia:- +44 702-402-5790
Address: 30 N Gould St, Sheridan, WY 82801, USA.
Country: United States
Follow us on twitter: @procurementrs
Website: https://www.procurementresource.com

The new report by Procurement Resource, a global procurement research and consulting firm, looks in-depth into the costs involved in the production of sodium cyanide. The comprehensive report analyses the production cost of the material, covering the raw material costs and co-product credit, equipment costs, land and site costs, labour wages, maintenance costs, financing charges, and the depreciation costs. The extensive study describes the step wise consumption of material and utilities along with a detailed process flow diagram. The report also assesses the latest developments within the sodium cyanide industry that might influence the costs of production, looking into the capacity expansions, plant turnarounds, and mergers, acquisitions, and investments.

Download a free sample of the production cost of sodium cyanide from hydrogen cyanide and caustic soda and many more@ https://www.procurementresource.com/cost-analysis/sodium-cyanide-production-from-hydrogen-cyanide-and-caustic-soda

Sodium cyanide refers to a poisonous inorganic compound that appears white in colour and is a water soluble solid. This compound is used in gold mining, fumigation, electroplating, and chemical manufacturing. The derivative of sodium cyanide, hydrogen cyanide, is used in chemical warfare and in the production of synthetic fibres, plastic, dyes, and pesticides.

In recent years, gold prices increased substantially, resulting in an increase in gold mining volumes and new mine projects, which, in turn, has led to the rising sodium cyanide consumption. The price of gold reached an all-time high in August 2020 and could continue to increase as a result of economic instability in the ongoing COVID-19 crisis. Replacement and recycling projects for cyanide are under development and could lead to lower cyanide consumption in the longer term. Due to the restrictions imposed amidst the COVID-19 crisis, there was a disruption in the supply-demand chain, which caused a slump in the plastic and synthetic fibre markets, thus, adversely affecting the demand for sodium cyanide. However, once the restrictions are lifted, the sodium cyanide market is likely to revive. These factors are expected to influence the production cost of sodium cyanide.

Read the full production cost analysis report of sodium cyanide@ https://www.procurementresource.com/production-cost-report-store/sodium-cyanide

The production cost report by Procurement Resource assesses the production of sodium cyanide from hydrogen cyanide and caustic soda, from sodium carbonate, charcoal, and ammonia, and caustic soda, ammonia, and natural gas. In the production process involving hydrogen cyanide and caustic soda, sodium cyanide is produced by reacting liquid anhydrous hydrogen cyanide with a sodium hydroxide solution. 30 wt% solution of sodium cyanide is obtained as the final product in this method.

About Us:

Procurement Resource ensures that our clients remain at the vanguard of their industries by providing actionable procurement intelligence with the help of our expert analysts, researchers, and domain experts. Our team of highly seasoned analysts undertake extensive research to provide our customers with the latest and up-to-date market reports, cost-models, price analysis, benchmarking, and category insights, which aid in simplifying the procurement process for our clientele. We work with a diverse range of procurement teams across industries to get real-time data and insights that can be effectively implemented by our customers. We also track the prices and production costs of an extensive range of goods and commodities, thus, providing you with the updated and reliable data. We, at Procurement Resource, with the help of the latest and cutting-edge techniques in the industry, help our clients understand the supply chain, procurement, and industry climate, so that they can form strategies which ensure their optimum growth.

Media Contact

Company Name: IMARC
Contact Person: Chris Byrd, Corporate Sales Specialist – U.S.A.
Email: sales@procurementresource.com
USA:- +1-213-316-7435
India:- +91 8586081494
Europe & Asia:- +44 702-402-5790
Address: 30 N Gould St, Sheridan, WY 82801, USA.
Country: United States
Follow us on twitter: @procurementrs
Website: https://www.procurementresource.com

Tuesday, September 29, 2020

The new report by Procurement Resource, a global procurement research and consulting firm, looks in-depth into the costs involved in the production of magnesium sulphate. The comprehensive report analyses the production cost of the material, covering raw material costs and co-product credit, equipment costs, land and site costs, labour wages, maintenance costs, financing charges, and the depreciation cost. The extensive study describes the step-wise consumption of material and utilities, along with a detailed process flow diagram. The report also assesses the latest developments within the magnesium sulphate industry that might influence the costs of production, looking into the capacity expansions, plant turnarounds, and mergers, acquisitions, and investments.

Download a free sample of the production cost of magnesium sulphate from magnesium carbonate and many more@

https://www.procurementresource.com/cost-analysis/magnesium-sulfate-production-from-magnesium-carbonate

Magnesium sulphate is a white crystalline solid which is soluble in water. It is a type of ionic salt that is also known as Epsom salt, which is naturally found in seawater. Magnesium sulphate is extensively used in agriculture to maintain soils deficient in magnesium (an important plant nutrient). It is also used as a flavour enhancer for products like bottled water and more. Magnesium sulphate also acts as a relaxing agent for muscles, thus, is widely used during the pregnancy period.

A report released by the American Society of Anaesthesiologists in October 2019 revealed that magnesium sulphate can act as a recovering agent for neurological outcomes after a brain surgery. Magnesium sulphate serves the medical industry with its extensive applications. It has been used to treat magnesium deficiency and seizures in women with eclampsia. Magnesium sulphate is also actively being used for the treatment of asthma, constipation, barium poisoning, torsades de pointes, and others. Due to its extensive usage in the medical field and the current scenario of the world (pandemic caused by COVID-19), the production of magnesium sulphate has been increased with installments of new operations in countries like India, China, and Japan. These factors are expected to influence the production cost for magnesium sulphate.

The production cost report by Procurement Resource assesses the production of magnesium sulphate via magnesium carbonate. In one of the most common methods to obtain magnesium sulphate, magnesium carbonate reacts with sulphuric acid to produce magnesium sulphate.

About Us:

Procurement Resource ensures that our clients remain at the vanguard of their industries by providing actionable procurement intelligence with the help of our expert analysts, researchers, and domain experts. Our team of highly seasoned analysts undertake extensive research to provide our customers with the latest and up-to-date market reports, cost-models, price analysis, benchmarking, and category insights, which aid in simplifying the procurement process for our clientele. We work with a diverse range of procurement teams across industries to get real-time data and insights that can be effectively implemented by our customers. We also track the prices and production costs of an extensive range of goods and commodities, thus, providing you with the updated and reliable data. We, at Procurement Resource, with the help of the latest and cutting-edge techniques in the industry, help our clients understand the supply chain, procurement, and industry climate, so that they can form strategies which ensure their optimum growth.

Media Contact

Company Name: IMARC
Contact Person: Chris Byrd, Corporate Sales Specialist – U.S.A.
Email: sales@procurementresource.com
USA:- +1-213-316-7435
India:- +91 8586081494
Europe & Asia:- +44 702-402-5790
Address: 30 N Gould St, Sheridan, WY 82801, USA.
Country: United States
Follow us on twitter: @procurementrs
Website: https://www.procurementresource.com

Popular Posts

Blog Archive