Sodium Hexa Meta Phosphate Industry: Growth and Forecast 2031 | Market Strides

Sodium Hexa Meta Phosphate Market Research Report

Market Strides has recently added a new report to its vast depository titled Global Sodium Hexa Meta Phosphate Market. The report studies vital factors about the Global Sodium Hexa Meta Phosphate Market that are essential to be understood by existing as well as new market players. The report highlights the essential elements such as market share, profitability, production, sales, manufacturing, advertising, technological advancements, key market players, regional segmentation, and many more crucial aspects related to the Sodium Hexa Meta Phosphate Market.

Market Overview

Sodium Hexa Meta Phosphate Market overview provides a snapshot of the current state of a specific market, highlighting key trends, growth drivers, challenges, and opportunities. It typically includes an analysis of the market size, competitive landscape, consumer demand, and regulatory factors. Additionally, the overview may touch on emerging technologies or innovations impacting the market, as well as projections for future growth. This concise summary helps businesses and investors understand the market dynamics and identify areas for strategic planning or investment.

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Sodium Hexa Meta Phosphate Market Share by Key Players

ICL Performance Products

Tri-Chem Industries

WELYCHEM

Prayon

Wego Chemical Group

Adana Food Tech

Sodium Hexa Meta Phosphate Market Segmentation

The report on Global Sodium Hexa Meta Phosphate Market provides detailed toc by type, applications, and regions. Each segment provides information about the production and manufacturing during the forecast period of 2024-2032. The application segment highlights the applications and operational processes of the industry. Understanding these segments will help identify the importance of the various factors aiding to the market growth.

The report is segmented as follows:

By Type

Food grade

Industrial grade

By Application

Food additive

Water Treatment

Industrial Chemicals

Others

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Sodium Hexa Meta Phosphate Market Frequently Asked Question

1) What are Sodium Hexa Meta Phosphate Market and why are they important?

2) What is the future outlook for the Sodium Hexa Meta Phosphate Market?

3) What are the Segments Covered in the Market?

4) Who are the prominent key players in the Market?

Key Highlights

It provides valuable insights into the Sodium Hexa Meta Phosphate Market.

Provides information for the years 2024-2032. Important factors related to the market are mentioned.

Technological advancements, government regulations, and recent developments are highlighted.

This report will study advertising and marketing strategies, market trends, and analysis.

Growth analysis and predictions until the year 2032.

Statistical analysis of the key players in the market is highlighted.

Extensively researched market overview.

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Phosphoric Acid Market Size and Share to Surpass USD 60.6 billion by 2031

The phosphoric acid market was valued at US$ 43.5 billion in 2022. The market is projected to reach US$ 60.6 billion by 2031. It is estimated to increase at a CAGR of 3.7% from 2023 to 2031. With a growing emphasis on sustainability and eco-friendliness in agriculture, sustainable phosphorus management might be given more attention. In order to reduce the impact on the environment, precision agriculture techniques could be developed, waste streams could be recycled, and phosphorus could be recycled from waste streams.

Technological advancements could lead to more sustainable and efficient methods of making phosphoric acid. Alternative phosphate sources could be explored, extraction processes optimized, or eco-friendly production techniques developed. Changes in environmental regulations and sustainability goals could affect the production and use of phosphoric acid. By enforcing stricter regulations, companies may adopt cleaner, more environmentally friendly processes when mining and processing phosphate ores.

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The depletion of conventional phosphate reserves may lead to a greater research focus on alternative phosphorus sources. The extraction of phosphorus from waste can be performed using chemical or biological methods. This process could include the development of technologies for phosphorus recovery from waste and the analysis of unconventional phosphate deposits.

Market Segmentation

By Service Type:

Purified Phosphoric Acid

Technical Grade Phosphoric Acid

Food Grade Phosphoric Acid

By Sourcing Type:

Wet Process

Thermal Process

By Application:

Fertilizers

Food & Beverages

Pharmaceuticals

Industrial

Others

By Industry Vertical:

Agriculture

Food Processing

Chemicals

Pharmaceuticals

Others

By Region:

North America

Europe

Asia Pacific

Latin America

Middle East & Africa

Regional Analysis

North America: The phosphoric acid market in North America is driven by the extensive use of fertilizers in agriculture and the demand from the food and beverage industry. The U.S. is a major contributor to the market in this region.

Europe: Europe shows moderate growth with significant applications in food processing and pharmaceuticals. Germany and France are leading countries in this market.

Asia Pacific: This region is expected to witness the highest growth rate due to the expanding agricultural sector, particularly in China and India. Rapid industrialization and increasing population also contribute to market growth.

Latin America: Growth in this region is fueled by agricultural activities and the demand for phosphate fertilizers.

Middle East & Africa: The market here is driven by agricultural needs and a growing food processing sector.

Market Drivers and Challenges

Drivers:

Rising Agricultural Activities: Increasing demand for food due to population growth drives the need for phosphate fertilizers.

Industrial Applications: Growing use of phosphoric acid in the manufacturing of various industrial products, including chemicals and pharmaceuticals.

Food and Beverage Industry: Rising demand for processed and convenience foods boosts the need for food-grade phosphoric acid.

Challenges:

Environmental Concerns: Phosphate mining and processing can lead to environmental degradation, posing a challenge to market growth.

Regulatory Hurdles: Stringent regulations regarding the use of phosphoric acid, especially in the food and beverage industry, can hamper market expansion.

Raw Material Availability: Fluctuations in the availability of raw materials required for phosphoric acid production can impact the market.

Market Trends

Sustainable Practices: Increasing focus on sustainable and eco-friendly production processes.

Technological Advancements: Innovations in production technology to improve efficiency and reduce environmental impact.

Product Diversification: Development of new grades and applications of phosphoric acid to cater to diverse industry needs.

Future Outlook

The future of the phosphoric acid market looks promising with continued growth expected in agriculture and industrial applications. Advancements in production technology and a focus on sustainable practices are likely to shape the market landscape. Increasing demand from emerging economies will further drive market expansion.

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Key Market Study Points

Market dynamics and their impact on growth.

Detailed analysis of market segmentation.

Evaluation of regional market trends and opportunities.

In-depth study of market drivers, challenges, and trends.

Competitive landscape and key player strategies.

Competitive Landscape

The phosphoric acid market is highly competitive with major players including OCP Group, The Mosaic Company, PotashCorp, and Prayon Group. These companies are focusing on mergers, acquisitions, and collaborations to expand their market presence. Innovation and sustainability are key strategies adopted by market leaders to stay competitive.

Recent Developments

OCP Group's Expansion: OCP Group has announced plans to increase its production capacity to meet rising global demand.

Technological Innovations: Companies are investing in research and development to enhance production processes and develop new applications for phosphoric acid.

Sustainability Initiatives: Market players are adopting sustainable practices and technologies to reduce environmental impact and comply with regulatory standards.

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Chemway Chemicals as Your Trusted Trisodium Phosphate Supplier in Dubai

One such crucial chemical is Trisodium Phosphate (TSP). TSP plays a vital role in various industrial processes, from cleaning metal surfaces before painting to degreasing machinery and textiles. Sourcing a reliable supplier of high-quality Trisodium Phosphate in Dubai is essential for businesses to ensure efficient operations and maintain a clean and safe work environment. This guide introduces Chemway Chemicals, a leading supplier of industrial chemicals in Dubai, including a comprehensive range of Trisodium Phosphate products. Their commitment to quality, diverse product selection, and exceptional customer service ensures you receive the most effective Trisodium Phosphate solution to meet your specific industrial needs.

Chemway Chemicals stands out from other Trisodium Phosphate suppliers in Dubai through several key factors. Firstly, they prioritize quality and consistency. They understand the critical role Trisodium Phosphate plays in various industrial processes. Impurities or inconsistencies in the product can hinder cleaning efficacy and potentially damage surfaces. Therefore, Chemway sources their Trisodium Phosphate from reputable manufacturers with stringent quality control procedures. This ensures you receive a consistent, high-quality product that delivers optimal cleaning performance across various applications. Secondly, Chemway Chemicals offers a diverse range of Trisodium Phosphate products to cater to specific industrial needs. Their inventory includes various grades and formulations of Trisodium Phosphate, allowing you to choose the most suitable option based on your application. They offer granular TSP for heavy-duty cleaning tasks, industrial-grade TSP for large-scale degreasing, and even food-grade TSP for applications in certain food processing industries. Thirdly, Chemway Chemicals fosters a customer-centric approach with a team of dedicated chemical experts. Their knowledgeable staff possesses a deep understanding of the properties and applications of various Trisodium Phosphate formulations. They can assist you in selecting the most appropriate TSP product for your specific requirements, considering factors like the type of contaminant you need to remove, the surface being cleaned, and the desired level of cleaning power. This personalized approach ensures you not only receive the right Trisodium Phosphate but also gain valuable insights into its safe and effective use within your particular industrial setting.

By prioritizing quality, offering a diverse product portfolio, and fostering a customer-centric approach with expert support, Chemway Chemicals positions itself as more than just a Trisodium Phosphate supplier in Dubai. They strive to be a trusted partner, ensuring your business has a reliable source for high-quality industrial cleaning solutions. Partnering with Chemway Chemicals allows you to focus on core operations, confident in the knowledge that your industrial equipment and facilities are maintained in a clean and efficient manner. So, elevate your industrial cleaning processes and ensure optimal performance – choose Chemway Chemicals as your trusted Trisodium Phosphate supplier in Dubai today.

A Spin Coating of Thymol Blue Indicator on F-SnO2 Glass to fabricate a Novel Sensor Electrode in Potentiometric Acid-Base Titration

Authored by: Nasser M Abu Ghalwa

Abstract

This study deals with the investigation for preparation of conductive glass / thymol blue TB sensor electrode by spin coating of the thymol blue (TB) indicator on conductive glass formed from F-SnO2, and it’s using as indicator electrode in potentiometric acid-base titration in aqueous solution at 298K. The change of the open circuit potential with pH (E-pH) curve is linear with slope of 0.052V/dec at 298K. The standard potential of the above electrode E0, was determined with respect to the SCE as reference electrode. The recovery percentage for potentiometric acid-base titration using G/TB as indicator electrode was calculated.

Keywords: Potentiometry; Thymol blue; Sensor; Conducting glass; Titration; Indicator electrode

Introduction

Chemical sensors are devices that convert the concentration of target compounds into an analytical signal. The term analytical implies the concept of measurability. Then a chemical sensor converts the information about the presence of target compounds into a measurable quantity [1]. Chemical sensors play a big role in checking the environment we live in, contributing information on industrial production processes, quality management of food stuffs and beverages, detection and analysis of some ions and many other applications [2]. Transparent conducting oxides possess a unique combination of optical transparency and metallic conductivity in a single material. Their properties are widely exploited in a host of energy, optical, and electrical applications [3-5]. SnO2 is a wide band-gap semiconductor with a band gap of 3.6eV and was the first transparent conducting oxides to receive significant commercialization. It exhibits good transparency and can be easily n-type doped. Degenerate carrier densities can be achieved by doping with fluorine [6,7]. Potentiometric titrations are the basic chemistry laboratory technique for the quantitative analysis of substances with unknown concentrations using standard solutions of known concentration. The substance with unknown concentration and the standard solution are termed analyte and titrant respectively [8]. This method widely used in different fields such as the food industry, scientific research, and chemical, clinical and pharmaceutical laboratories. Titrimetric procedures based on a detection of the endpoint, i.e., the point at which volumetric titration is completed, are successfully employed over a wide range of concentrations and are popular because of their simplicity, speed, accuracy and good reproducibility [9]. Recently, many studies developed some types of electrodes in potentiometric acid base titration [10-13]. Thymol blue (thymolsulphonephthalein) is used as a pH indicator. A solution of thymol blue exhibits three form (red color), Neutral form (yellow color) and basic form (blue color) show Figure 1 [14].hone radiation can lead to adverse effects [10-16]. Thus, the public concern is that increasing the frequency of the radiation will also increase the effects of the radiation [14-16].

The aim of this study for preparing a spin coating of thymol blue indicator TB on conducting glass formed from F-SnO2 to prepare a new modified electrode sensor (glass / indicator electrode), for used in potentiometric acid base titration.

Experimental

Chemicals

The chemicals used in potentiometric titrations and preparation the electrode was tetraethyl orthosilicate (TEOS), Thymol blue (TB), hydrochloric acid, ammonia, Acetic acid, phosphoric acid, sodium hydroxide, sulfuric acid, citric acid and disodium phosphate. The chemicals are of analytical pure grade (Merck) Where the F-SnO2 glass from (Sigma Aldrich).

Synthesis of Materials

Preparation of Hydrolyzed TEOS

A mixture of 2. ml of absolute ethanol, 0.86ml of 0.1M of HCl were added to 2.5ml of TEOS under stirring. The obtained solution was kept under stirring at room temperature until a homogeneous clear solution was obtained. The solution was aged at least for 24 hours before used in the coating process. The hydrolyzed TEOS solution was used as a host matrix for the indicators.

Preparation of Indicators

Indicators solution (1×10-2M) thymol blue indicator (TB) were prepared using absolute ethanol as solvent.

Stock solution of indicators

The sample solution was prepared by mixing 1ml of blank hydrolyzed TEOS solution and 1ml for each indicator.

Preparation of Silica-immobilized Thin Films

Substrate Cleaning

Glasses were activated by concentrated H2SO4 for 24 hours, then washed with distilled water and ethanol. The surface was finally rubbed with cleaning paper.

Preparation of glass/TB electrodes using Spin coating method

All thin films layers prepared in this work were made by spinning three drops of the solutions onto a clean glass slide. The coating process was performed using the spin coater machine at 900rpm spinning speed for 1 min. period time. To obtain multilayers of thin films a subsequent spin coating method was performed after gradually drying of the previous layer at room temperature for 24 hours, then dried at 80oC for another 48 hours. And repeat the spin coating two or three time. Where the conducting substrate is usually conducting glass, consisting of glass coated with a thin layer of F-doped SnO2.

Sensor design of potentiometric cell

The potential of the indicator electrode relative to that of the reference electrode was measured on a digital multimeter model YDM 302C (China). Potentials were measured to ±5mv. The potential of Thymol blue, sensor indicators electrodes was measured vs. a saturated calomel electrode (SCE). The error in the measurement of the potential due to liquid- junction potentials in these electrolytes is estimated to be about 0.001V.

The solution in a beaker is stirred by means of a magnetic stirrer. The electrodes (indicator and reference) were dipped slowly into aqueous solution (acid or reductant). After the steady state potential was attained, the titration of the acid was carried out by addition of 1ml of the base to the acidic solution, waiting until the steady potential is established and then measured. The potential variation depends on the type of the base, the progress of neutralization process and on the initial concentration of the acid to be titrated. The results were reproducible to satisfactory value of ±5 mV for potential measurements. The process of addition of the titrant was repeated until the equivalence point was reached.

The E-pH relation of Thymol blue electrode:

The E-pH relation of Thymol blue electrode

According to Figure 2 the change of the open circuit potential (E) of the G/ TB indicator electrode with pH . The E-pH plot of the G/TB indicator electrode fits straight line with slope of 53.11mV at 298K. This value is close to the magnitude of the term 2.303RT/F at the corresponding temperature (59.1mV at 298 K). This value is close to the magnitude of the term 2.303RT/F (where: R gas constant, T absolute temperature and F Faraday constant) at the corresponding temperature (59.1mV at 288K). From Figure 2 the E0 value of the sensor electrode, i.e., the potential at [H+] = 1, is computed as 279.1mV relative to the saturated calomel electrode and can determination by:

This equation is applicable for the reversible behavior of working electrode. From the developed Nernst equation, we indicate that working electrodes can be used as pH-indicator. At high or low pH, the electrode indicates pH less than true value as pH glass electrode, it may be due to damage in electrode or existence of alkali metal ions in solution too.

The response time of the sensor

In general, the response time was defined as the time of sensor’s output reach to 90% of the equilibration after the measurement was started, especially to electrochemical sensors [15-17]. Figures 3a-3e show the response time of the G/TB sensor at different concentration of phosphoric acid, acetic acid, Hydrochloric acid, ammonia and NaOH respectively. Response time, in the range of (100-450) seconds was achieved, which rendered the sensor highly practical.

Effect of temperature on the response characteristics:

The importance of temperature measurement when performing pH measurements has already been mentioned in reference to slope correction. Temperature also has an effect of both pH buffers and solutions, as the hydrogen ion activity will increase with increasing pH [18].

The Thymol blue sensor response was evaluated at different temperatures, Figure 4. At lower temperatures, like 288K, the slope of the sensor was about 33.54mV/decade and the sensor would be used for pH measurements in the range from (2-11). However, when the temperature of the test solutions was adjusted to 298K, the slope significantly increased to 53.11mV/decade. By raising the temperature to 313K and 323 K the slope increased to 54.11mV/ decade and 59.75mV/decade respectively. Figure 4 shows the square of the correlation coefficient (r2) for pH measurements using the solid-state sensor, at different temperatures, as compared to pH values obtained by a conventional pH electrode (Hanna Instruments HI 1131 pH combination electrode) was found to change as the temperature increases where as r2 values for measurements at 283K, 298K, 308K, and 318K were 0.9655, 0.9386, 0.9482, 0.9876, respectively. This indicates that better results could be obtained at 298K due to easy and settable to use without heating.

The relation between conventional glass PH electrode and G/ TB indicator electrode

All potential values were converted with respect to the standard hydrogen electrode (SHE). During experiments, pH was also monitored with a commercial glass electrode that was calibrated daily using commercial standard buffer solutions (2-9) [19]. Figure 5 represents the correlation between the conventional glass PH electrode and G/Thymol blue indicator electrode, it can be easily recognized that excellent correlation between the results obtained by the solid-state pH sensor and the conventional glass pH electrode could be achieved. The slope of this relation was 0.947 and the r2 was 0.947. This indicate that G/TB indicator electrode potential values are closed to the values of conventional glass pH electrode.

Potentiometric of weak acids against NaOH

Figures 6a & 6b represent the potentiometric titration of 0.1M NaOH with different concentrations of acetic acids and phosphoric acid. The variation of G/TB electrode potential at 298K with the different volumes of standard 0.1M NaOH followed typical potentiometric titration curves. These curves show slight decrease in potential (to more negative values) with the addition of the titrant. Where Figure 6c show the potentiometric titration between the volume of 0.1M standard HCl against ammonia. The variation of the TB electrode potential at 298K with the different volumes of standard HCl followed typical potentiometric titration curves. These curves show slight increase in potential (to more positive values) with the addition of the titrant.

Location of endpoints

Figure 7a represent ΔE/ΔV against V plot for the potentiometric titrations of CH3COOH and H3PO4 with 0.1 M standard NaOH. From the plots the values of end points were determined. The obtained results and calculated values of (R%) are listed in Tables 1 & 2 for acetic acid and phosphoric acid respectively. The values of pKa for different concentration of acetic acid and phosphoric acid were calculated using the method of half neutralization as shown in Table 3. There are two jumps in the titration of phosphoric acid with NaOH using G/TB sensor. i.e two end points appear by using this electrode. The obtained values of pKa for the investigated bases are close to the previously reported values. Where Figure 7b represent ΔE/ΔV against V for the potentiometric titrations of ammonia and 0.1M standard HCl respectively. From the plots the values of end points are determined.

Finally, the values of pKb for different concentration of ammonia can be determined using the method of half neutralization. They are listed in Table 3 for the tested bases. The obtained values of pKb for the investigated bases are close to the previously reported values.

Conclusion

This study investigated the preparation of the modified electrodes of type glass/ thymol blue G/TB and their use as sensor indicator electrodes in the potentiometric acid-base titrations in aqueous solution at 298K. E-pH curve is linear with slope of 0.053.1V/decade for the G/BTB electrode at 298K. This value is close to the theoretical value 2.303RT/F (0.059V at 298K) and the recovery percentage for potentiometric acid-base titration using G/TB as indicator electrode was calculated.

i. On other hand the standard potential of the tested electrode, E0, is computed as 279mV with respect to SCE as reference electrode. Acetic acid, phosphoric acid, hydrochloric acid and ammonia were successfully potentiometric titration with NaOH as titrant in aqueous medium at 298K. Finally, this study is applied in different temperatures like 283K, 298K, 308K, and 318K were the correlation coefficient (r2) 0.9655, 0.9383, 0.9482, 0.9876, respectively.

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Global Acetate Salt Market Size, Trends, Shares, Insights and Forecast - 2026

Acetate salts are clear and colorless crystals or liquid (in aqueous form) derived from acetic acid. Acetate salts are low toxic compounds that provide good buffering properties—ability to maintain solutions at relatively constant pH despite changes in acid or base concentration. These salts are extensively utilized in various end user industries such as pharmaceuticals, food processing, and water treatment industries, among others.

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Market Dynamics

The global market for acetate salts is primarily driven by growing demand of food, chemicals and construction industry. It is used to neutralize sulfuric acid in the textile industry. Moreover it is used as a barrier to water in the concrete structures across the globe.

Other factors including rapid depletion of fresh water reserves in countries in Asia Pacific and the Middle East fueling demand for acetate salt for water treatment, to recover magnesium salt from brine and aluminum salt from aluminum hydroxide by various industries to reduce investment made for raw water treatment equipment installation. Moreover with the increase in population and growing urbanization, rapid adoption of frozen and canned food demand increasing across the globe.

However, the market faces certain drawbacks such as presence of benzoic acid and sodium benzoate that are commonly used as food preservatives, which are easily available in the market and rapidly maturing market in developed economies of North America and Europe, inadvertently leading to plunge in profitability.

Market Segmentation

Acetate salts are essential products for general, as well as industrial purposes. In the report, the acetate salt market is segmented on the basis of product type and end user industry. They are further segmented as follows:

·         By product type, the market has been segmented into

o    Sodium acetate

o    Calcium acetate

o    Zinc acetate

o    Potassium acetate

o    Others

·         By end-user industry, the market has been segmented into

o    Pharmaceutical

o    Food Processing

o    Water Treatment

o    Petrochemical

o    Cosmetic

o    Others (Construction and Textile industries)

Among product types, sodium acetate segment dominates the acetate salt market. Factors such as extensive application in food processing, pharmaceuticals, textiles and cosmetics industry, makes sodium acetate the largest segment in the global acetate salt market.  

Among end-user industries, pharmaceuticals industry is currently the largest consumer of acetate salt and is also expected to witness fastest growth rate during the forecast period (2016-2024). Acetate salts are widely used in production of various types of drugs. Rapidly growing pharmaceuticals industry in emerging economies of Asia Pacific and South America has in turn resulted in high demand for acetate salt in these regions. Furthermore, its application in potato chips to give a salty and vinegar flavor, food processing industry is also increasing, where it is widely used as preservative and flavoring agent.

Regional Analysis

The market has been geographically segmented into North America, Europe, Asia Pacific, Latin America, Middle East, and Africa. In terms of consumption in 2016, North America dominated the market, followed by Asia Pacific, and Europe, respectively. Highly advanced pharmaceuticals industry and widespread presence of superior quality of water treatment solutions in North America makes it the largest acetate salt market. Furthermore, high consumption of frozen and canned food in the region is a major factor driving growth of the acetate salt market in North America.

However, Asia-Pacific, currently the second largest market, is expected to witness maximum growth rate during the forecast period (2016-2024). Owing to factors such as rapid industrialization & urbanization, growing population, dynamic economic development and improved standard of living, Asia-Pacific is currently witnessing significant rise in all major end-user segment of acetate salt market such as pharmaceuticals, food processing, and water treatment industries, laboratories textile industries, dyes industries and rubber industries, among others.

Opportunities and Major Players

Sodium acetate is used to neutralize the sulfuric acid from waste pipes in the textile industry. Burgeoning growth of the textile industry, especially in Asia Pacific is expected to boost growth of the market over the forecast period.

The market of acetate salt is highly fragmented, with the presence of only few global players. Majority of the players in this market are local players, with better access to distribution in their local market.

Major companies dominating this market for its products, services, and continuous product developments are:

·         Jost Chemicals

·         Dow Chemicals Company

·         Shepherd Chemical Company

·         Karn Chem Corporation

·         Chang Shu Nan Hu Chemical Co., Ltd.

·         Wuxi Yangshan Biochemical

·         NOAH Technologies Corporation

·         Allan Chemical Corporation

·         CABB GmbH

·         Nantong Zhongwang Additives Co., Ltd

·         Shanxi FanRongFu Chemical Factory

·         Niacet Corporation

·         FRP Services & Company

·         Merck Millipore

·         Avantor Performance Materials

·         Solvay

·         Alfa Aesar

·         M. Loveridge Ltd.

·         Amresco LLC.

*(List Not Exhaustive)

Key Developments

Increasing use of acetates in the healthcare and other sectors is expected to boost the market growth. For instance, in May 2019, researchers from University of Naples ‘Federico II’ anodized rounded tip dental implants of commercial grade titanium in aqueous phosphoric acid modified with calcium and potassium acetate.

In May 2018, researchers from Heinrich-Heine University of Düsseldorf characterized two new polymorphs of the phase-change material sodium acetate by single-crystal X-ray diffraction.

In December 2018, researchers from Lomonosov Moscow State University reported synthesis of calcium phosphate powder from calcium acetate and ammonium hydrophosphate for bioceramics application.

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Global Food-Grade Phosphate Market Growth Prospects 2018 - ICL PP, Innophos, Xingfa Chemicals Group and Blue Sword Chemical

Global Food-Grade Phosphate Market Growth Prospects 2018 – ICL PP, Innophos, Xingfa Chemicals Group and Blue Sword Chemical

This Food-Grade Phosphate Market report researchers the industry size (value, capacity, production, and consumption) in key regions like USA, Europe, Japan, China, India, South East Asia, and other regions. This study categorizes the Food-Grade Phosphate divided data by manufacturers, region, type, and application, also analyzes the market status, market share, growth rate, future trends,…

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TMI Thursday.

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Guano (from Spanish guano, from Quechua: wanu) is the accumulated excrement of seabirds and bats. As a manure, guano is a highly effective fertilizer due to its exceptionally high content of nitrogen, phosphate and potassium: nutrients essential for plant growth. Guano was also, to a lesser extent, sought for the production of gunpowder and other explosive materials. The 19th-century guano trade played a pivotal role in the development of modern input-intensive farming, but its demand began to decline after the discovery of the Haber-Bosch process of nitrogen fixing led to the production of synthetic fertilizers. The demand for guano spurred the human colonization of remote bird islands in many parts of the world. During the 20th century, guano-producing birds became an important target of conservation programs and influenced the development of environmental consciousness. Today, guano is increasingly sought after by organic farmers.[1]

Contents

1Composition

2History

3Sourcing

4Properties

5In popular culture

6See also

7References

8Further reading

9External links

8.1Africa

8.2Chile

8.3Peru

8.4Documents

Composition[edit]

Paul Szpak has co-authored several journal articles claiming that seabird guano consists of nitrogen-rich ammonium nitrate and urate, phosphates, as well as some earth salts and impurities, and that unleached guano from favored locales, such as the Chincha Islandsoff the coast of Peru, typically contains 8 to 16 percent nitrogen (the majority of which is uric acid), 8 to 12 percent equivalent phosphoric acid, and 2 to 3 percent equivalent potash.[2][3]

However, The Association of American Plant Food Control Officers (AAPFCO) defines Seabird guano as the hardened excrement from marine birds, which contains no organic matter or nitrogen and is a source of phosphates P2O5: "P- Hydroxylapatite - is a naturally-formed phosphate rock mineral with the formula Ca5(PO4)3(OH). The Fluorine content is less than 1%."[4]

Bat guano is fecal excrement from bats. Commercially harvested bat guano is used as an organic fertilizer.[5][6] All commercially sold bat guano is derived from insect-eating bats.[7]A study was done that demonstrated that, for fruit bats and insect bats, the composition of their guano was largely the same, and differed mainly based on their diet.[8]

History[edit]

Chincha Islands where guano was found in abundance. Mining was done on site and ships transported it to Europe.

Mining guano in the

Chincha Islands

off the central coast of

Peru

c. 1860.

Advertisement for guano, 1884

The word "guano" originates from the Andean indigenous language Quechua, which refers to any form of dung used as an agricultural fertilizer. Archaeological evidence suggests that Andean people have collected guano from small islands and points located off the desert coast of Peru for use as a soil amendment for well over 1,500 years. Spanish colonial documents suggest that the rulers of the Inca Empire assigned great value to guano, restricted access to it, and punished any disturbance of the birds with death. The Guanay cormorant has historically been the most abundant and important producer of guano. Other important guano producing species off the coast of Peru are the Peruvian pelican and the Peruvian booby.[1][3]

In November 1802, Alexander von Humboldt first encountered guano and began investigating its fertilizing properties at Callao in Peru, and his subsequent writings on this topic made the subject well known in Europe. During the guano boom of the nineteenth century, the vast majority of seabird guano was harvested from Peruvian guano islands, but large quantities were also exported from the Caribbean, atolls in the Central Pacific, and islands off the coast of Namibia, Oman, Patagonia, and Baja California. At that time, massive deposits of guano existed on some islands, in some cases more than 50 m deep.[9] In this context the United States passed the Guano Islands Act in 1856, which gave U.S. citizens discovering a source of guano on an unclaimed island exclusive rights to the deposits. Nine of these islands are still officially U.S. territories.[10] Control over guano played a central role in the Chincha Islands War (1864–1866) between Spain and a Peruvian-Chilean alliance. Indentured workers from China played an important role in guano harvest. The first group of 79 Chinese workers arrived in Peru in 1849; by the time that trade ended a quarter of a century later, over 100,000 of their fellow countrymen had been imported. There is no documentary evidence that enslaved Pacific Islanders participated in guano mining.[11] Between 1847 and 1873, there was a significant increase in Peruvian guano exports, and the revenue from this momentarily ended the fiscal necessity of the colonial head tax.[12]

After 1870, the use of Peruvian guano as a fertilizer was eclipsed by saltpeter in the form of caliche extraction from the interior of the Atacama Desert, not far from the guano areas. During the War of the Pacific (1879–1883) Chile seized much of the guano as well as Peru's nitrate-producing area, enabling its national treasury to grow by 900% between 1879 and 1902 thanks to taxes coming from the newly acquired lands.[13] Contrary to popular belief, seabird guano does not have high concentrations of nitrates, and was never important to the production of explosives; bat and cave-bird deposits have been processed to produce gunpowder, however. High-grade rock phosphate deposits are derived from the remobilization of phosphate from bird guano into underlying rocks such as limestone.[14] In 1990 a group of French researchers, from isotope studies, proposed a marine sedimentation origin for some high-grade phosphate deposits on Nauru.[15][16]

Since 1909, when the Peruvian government took over guano extraction for use by Peru farmers, the industry has relied on production by living populations of marine birds. U.S. ornithologists Robert Cushman Murphy and William Vogt promoted the Peruvian industry internationally as a supreme example of wildlife conservation, while also drawing attention to its vulnerability to the El Niño phenomenon. South Africa independently developed its own guano industry based on sustained-yield production from marine birds during this period, as well. Both industries eventually collapsed due to pressure from overfishing.[1]The importance of guano deposits to agriculture elsewhere in the world faded after 1909 when Fritz Haber developed the Haber-Bosch process of industrial nitrogen fixation, which today generates the ammonia-based fertilizer responsible for sustaining an estimated one-third of the Earth's population.[17]

DNA testing has suggested that new potato varieties imported alongside Peruvian seabird guano in 1842 brought a virulent strain of potato blight that began the Irish Potato Famine.[18][19]

Sourcing[edit]

A

herring gull

(

Larus argentatus

) excreting waste near

Île-de-Bréhat

.

The ideal type of guano is found in exceptionally dry climates, as rainwater volatilizes and leaches nitrogen-containing ammonia from guano. In order to support large colonies of marine birds and the fish they feed on, these islands must be adjacent to regions of intense marine upwelling, such as those along the eastern boundaries of the Pacific and South Atlantic Oceans.[9]

Bat guano is usually mined in caves and this mining is associated with a corresponding loss of troglobytic biota and diminishing of biodiversity. Guano deposits support a great variety of cave-adapted invertebrates, that rely on bat feces as their sole source of nutrition. In addition to the biological component, deep guano deposits from birds and bats contain local paleoclimatic records and evidence of other environmental changes in strata that have built up over thousands of years, which are unrecoverable once disturbed.[20]However, when done with caution, extraction of guano can be done alongside marine bird colonies without causing them significant harm.[21][22]

Post-depositional decomposition and ammonia volatilization of penguin guano also plays an important role in the evolution of ornithogenic sediments in the cold and arid environment of Antarctica (McMurdo Sound of the Ross Sea region, East Antarctica).[23]

Properties[edit]

In agriculture and gardening guano has a number of uses, including as: soil builder, lawn treatments, fungicide (when fed to plants through the leaves), nematicide (decomposing microbes help control nematodes), and as composting activator (nutrients and microbes speed up decomposition).[24]

High in nitrogen, guano was also refined in the early 20th century into a precursor to explosives. This caused guano islands to be of strategic significance before the First World War.

In popular culture[edit]

"Guano's historical significance was as much cultural as it was ecological and economic."[25] References to guano in popular culture are an important sign of this cultural influence, especially regarding the ongoing relationship between guano and colonialism. In his 1845 poem "Guanosong", Joseph Victor von Scheffel used a humorous verse to take a position in the then-popular polemic against Hegel's Naturphilosophie. The poem starts with an allusion to Heinrich Heine's Lorelei and may be sung to the same tune.[26] The poem ends however with the blunt statement of a Swabian rapeseed farmer from Böblingen who praises the seagulls of Peru as providing better manure even than his fellow countryman Hegel. This refuted the widespread Enlightenment belief that nature in the New World was inferior to the Old World. The poem has been translated by, among others, Charles Godfrey Leland.[27]

In Joseph Conrad's 1900 novel Lord Jim the characters Chester and Captain Robinson attempt to recruit the eponymous lead character for an expedition harvesting guano.

The setting of Ian Fleming's 1958 installation in the James Bond series Dr. No is a Caribbean guano island, and the villain dies at the end buried in guano.

In Stanley Kubrick's 1964 film Dr. Strangelove, Colonel "Bat" Guano (Keenan Wynn) leads an attack on the airbase responsible for sending a nuclear attack order to bomb the Soviet Union.

The 1994 film Men of War centers on a band of mercenaries who are hired by an investment firm to seize a tropical island for its extensive guano deposits.

In the 1995 film Ace Ventura: When Nature Calls, Jim Carrey's character attempts to save an African tribe from being dispossessed of a fortune in bat guano.

Hungarian painter Judit Reigl had a series of paintings between 1958-1964. She used to protect the floor of her atelier with old and ruined canvasses. When she moved out, she discovered that over these years the paintings developed an interesting surface, and she carved her "Guano painting" from these.

Conjunction Junction

1.  My dog Cooper is a poodle and a retriever. His fur is gold and it has reddish parts and doesn’t shed. He is good at sitting, playing dead and commands in Spanish. His favorite toys are stuffed animals he can pull apart and branches (sticks) for playing fetch. Cooper loves salmon for dinner and for snacks he prefers mangos.

My dog Cooper is a retriever but also has a some poodle in him. His fur is gold but with reddish parts but doesn’t shed. He is good at sitting, playing dead but also knows commands in Spanish. He loves to play with stuffed animals he can pull apart but loves branches for fetching. Cooper loves salmon for dinner but for snacks he prefers mangos.

2.  My favorite wall in my home is an installation of the 59 national parks and I am not missing one because a new national park was recently announced. The way it’s laid out is 13 across and 5 high and I organized them east to west to reflect their location on the US map. It uses images from the park and animals from that region. I’ve visited 10 and added postcards from state parks too.

My favorite wall in my home is an installation of the 59 national parks but I am missing one because I bought the set before the new national park was announced. The way it’s laid out in 13 across and 5 in height but organized from east to west to reflect their location on the US map. It uses images from the park but sometimes includes animals from the region. I’ve visited 10 but also added postcards from the states parks.

3.  My best friend Kenzie and I have known each other since the 7th grade and we have stayed best friends even though we’ve lived in different places for the past 9 years. Kenzie is from California and lives in Florida for her masters program. She is a rock climber and she studies invasive plant species. Her favorite foods are usually contain greens (salads) and also loves to eat ice cream.

My best friend Kenzie and I have known each other since the 7th grade but we have stayed best friends even though we’ve lived in different places for the past 9 years. Kenzie is from California but she lives in Florida for her masters program. She is a rock climber but she studies invasive plant species. Her favorite foods usually contain greens (Salas) but she also love to eat ice cream.

4.  I love to bake and my favorite desert to make is called Merengon de Fresas. It is a Colombian dessert and I was able to find the ingredients to make it. It is creamy and citrusy and it has a bit of crunch and with the strawberries bringing it bring it to a full circle.I enjoy making it and have to plan out far in advance because it takes 6hrs total to be made.  So it is usually a dessert for a special occasion and sometimes I get request from friends to make it.

I love to bake but my favorite desert to make is called Merengon de Fresas. It is a Colombian dessert but I was able to find the ingredients to make it. It is creamy but with a hint of citrus but also has a bit of crunch but the strawberries bring it full circle. I enjoy making it but have to plan out far in advance because it takes 6hrs total to make. So it is usually a desert for a special occasion but sometimes I get requests from friends to make it more often.

5. Last spring I got the chance to visit Morocco and travel through different cities within the country. Each city was very unique and geographically and culture different. Some of the cities also had different kinds of external influences and made for different types of foods closely related to France, Spain and Israel. It has desert and snow with beautiful mountains and cost lines. The country’s farming culture is due to its natural abundant resource phosphate and because of it small farms can be productive too. I got to ride a camel and see the goats on the argon nut trees.

Last spring I got the chance to visit Morocco but also got to travel through different cities within the country. Each city was very unique but geographically and culturally different. Some of the cities also had different kinds of external influences but made for different types of foods closely related to France, Spain and Israel. It has deserts but also snow with beautiful mountain but also costa lines that extant across. The country’s farming culture is due to its natural abundant resource phosphate but because of it small farms can be productive too. I got to ride a camel but also see the goats on the argon nut trees.

Water Softeners At Spending Plan Costs.

Why Water Treatment Equipment, Inc With this highly flexible modular system, filters can be combined into numerous setups (parallel, series, series-parallel etc) to suit any application. Making use of a strainer filter at the inlet followed by a selection of aspects ranging from 80 microns down to 1 micron levels of filtering. Filter cartridges are offered in food-grade polypropylene for suspended solids, Crystal phosphate cartridges for corrosion avoidance and activated carbon cartridges for the absorption of organics and colour elimination. For the majority of industrial applications, a 150,000 GPD capacity WWTS would cost an estimated $500,000 to $1.5 million inclusive of all necessary style, engineering, start-up, setup, and devices. More complicated streams, greater flow rates, and greater effluent quality standards will all drive the system expense up. Nalco Holding Company (NLC) water treatment product or services The Business's products and services are utilized in water treatment applications to prevent corrosion, contamination and the develop of harmful deposits or in production procedures to enhance process performance and enhance its consumers' final result. Membrane need will be supported by increasing water pureness requirements: Provide and process water quality is significantly emphasized as a crucial part in making processes, as it can have a direct impact on end product quality. Users in the U.S., Western Europe and other developed markets are increasingly eschewing water treatment chemicals in favor of membranes and other purification solutions. Keeping high levels of completed item quality also helps producers take on low-cost imports from growing production industries in developing areas. Harnessing the power that nature utilizes to cleanse the rivers and streams - air, microorganisms, gravity, light - the wastewater market has actually transformed sanitation and brought health to their communities, rivers, oceans, streams and lakes. Through Xylem's broad portfolio and knowledge, consumer needs are evaluated and the ideal service offered with low life cycle costs. When the water leaves the plant, it is not wastewater, but an extremely valuable resource. Crystal Clear Water Treatment sells and services all types of water treatment devices. Treatment devices is specifically matched to the consumer's individual water quality. All water quality screening is done by a independent lab. We stock a large variety of treatment systems to be either installed by our personnel or shipped to the client for installation. Depending upon the services you are looking at for your background check, the average expense expenses can vary - more if you want a substantial check, less if you desire a basic check. A good background check run through BackTrack expenses under $100, considerably less than the cost of an irresponsible hiring claim and the potential loss of your business's good name and track record. In between talking to, background checking and potentially evaluation testing, you are being as proactive as you can be to ensure that the FIRST individual you bring on board with your company will be an excellent fit. Demand for water treatment equipment in the United States is anticipated to grow 5.9 percent annually to $13.0 billion in 2017. Gains will be supported by increasing concerns about the health dangers and environmental impacts of biological pollutants, chemicals, and disinfection byproducts in supply water and wastewater, and by more strict manufacturing requirements in process water. Resource extraction and the business and domestic markets are expected to be among the fastest growing markets for water treatment devices, while the bigger local and manufacturing markets are projected to expand at healthy rates. Tonka Water has been the leader in personalized water treatment solutions considering that 1956. Tonka Water has actually set up thousands of separately developed water treatment systems for municipalities across the United States and abroad. Tonka Water's competence has actually also found effective applications in tertiary water filtration, ecological remediation, and commercial process jobs.

What Is Aquaculture And How Is It Maintained

While you may or may not have heard of Aquaculture products, you have heard of aquaculture. Aquaculture, often known as aqua-farming, is the controlled cultivation or farming of aquatic creatures such as fish, crustaceans, molluscs, algae, and other valuable species such as lotus. 

Aquaculture, as opposed to commercial fishing, includes the cultivation of freshwater, brackish water, and saltwater populations under controlled or semi-natural circumstances. Various aquaculture procedures are utilized worldwide for a wide range of culture organisms in three environments (freshwater, brackishwater, and marine). 

Freshwater aquaculture is done in fish ponds, fish pens, fish cages, or, on a smaller scale, rice paddies. Brackishwater aquaculture is mainly practiced in coastal fish ponds. Finally, fish cages or substrates for molluscs and seaweeds, such as stakes, ropes, and rafts, are used in marine culture. 

Culture systems range from extensive to intensive in terms of the stocking density of culture organisms, level of inputs, and degree of management. For example, aquaculture approaches include freshwater pond culture, rice-fish culture, culturing of brackishwater finfish, and integrated fish farming. 

Other examples include mariculture which entails extensive culture and the production of fish/shellfish (e.g., oysters, mussels, cockles) sold at inexpensive rates in rural and urban markets. Maintenance of Aquaculture requires a few steps and products. Aside from feeds and water management, the following pond maintenance procedures are followed: 

Regular application of fertilizers, lime, and pesticides

Predator prevention

Stock monitoring for growth rate determination as a basis for feeds and water management

Regular pond upkeep and maintenance

To sustain the plankton population in the pond, extensive ponds are treated regularly with organic fertilizers like chicken, cow, or pig dung or inorganic fertilizers like urea, ammonium phosphate, or both. The fertilizers are dispersed over the pond's surface or maintained in bags strung from poles planted around the pond's perimeter. 

With a few exceptions, semi-intensive and intensive culture methods do not require fertilization since they are not natural food-based. Finar provides a wide range of high-quality aquaculture solutions to fulfill the growing demand in the aquaculture business. 

Finar, one of the fastest-growing and most reputable aquaculture product providers, also provides Aqua Probiotics through this product profile. Probiotics are a potential technique for controlling infectious organisms and treating disorders. 

Probiotics offer growth stimulation, better digestion, immunological response, and water quality. Probiotics are one type of microbial intervention that can increase fish development by improving feed conversion efficiency and providing protection from dangerous bacteria. 

For over two decades, Finar has continuously provided high-quality Laboratory Chemicals, Analytical Reagents, Food Grade Additives, and Pharmaceutical Excipients to clients in over 50 countries worldwide. Finar adheres to the most stringent environmental, health, and safety regulations. 

Finar is an ISO 9001:2015, 14001:2015, ISO 45001:2018, ISO/IEC 17025:2017, EXCiPACT, and GMP-certified firm that adheres to the highest quality standards. Finar aspires to be a complete partner to the Aqua business, bringing novel and high-quality eco-safe solutions to achieve long-term success. If you are looking for the best Aquaculture probiotics manufacturers in India, look no further than Finar.

Phosphoric Acid Market Growth And Demand by 2030

Increasing need for the production of fertilizers and rising need for wastewater treatment are the key factors driving market revenue growth

The global Phosphoric Acid Market size was USD 48.75 Billion in 2021 and is expected to register a revenue CAGR of 3.8% over the forecast period, according to the latest report by Reports and Data. Market revenue growth is expected to be driven by the growing use of phosphoric acid in the electronics and food & beverage industry.

Electronic-grade phosphoric acid is used in the electronics industry as an etchant to produce semiconductors such as flash memory and Integrated Circuits (ICs), as well as a dopant for producing different types of solar cells. Phosphoric acid is used to make Flat Panel Displays (FPD) for computers, televisions, and mobile phones as well as fuel cells. In addition, the food and beverage industry uses phosphoric acid as a food additive. It is mainly used as a preservative to give food products a strong flavor. The most popular way to ingest it is through soft drinks. Furthermore, the increasing use of phosphoric acid in various bottled teas, punches, sports drinks, and fruit-flavored drinks is also boosting the demand for phosphoric acid. In order to change the proteins and modify the pH value to produce a higher-quality product, the salts of phosphoric acid are also used in a variety of dairy products. These factors are expected to drive market revenue growth during the forecast period.

Get a sample copy of the global Phosphoric Acid market report: https://www.reportsanddata.com/sample-enquiry-form/2650

Top Companies: Clariant, CF Industries Holdings, Inc., Brenntag GmbH, Arkema, Nutrien Ltd., J.R. Simplot Company, UPL, EuroChem Group, Solvay, and LANXESS.

Further key findings from the report suggest:

Wet process segment is expected to register a rapid revenue growth rate during the forecast period owing to increasing use in the production of phosphate fertilizers. The impurities in wet-process acid promote super cooling and reduce the tendency for crystallization, which is expected to contribute to the segment's revenue growth.

The technical grade segment is expected to register a rapid revenue growth rate during the forecast period. Technical grades are used in plant nutrition applications to provide precise and targeted fortification with water-soluble solutions. Increasing use of these chemicals in metal finishing (rust moving), beverages and food are expected to drive the revenue growth of the segment.

Offline segment is expected to account for the largest revenue share over the forecast period owing to the increasing need for checking the quality of goods. Offline channels are the first choice for rural consumers because they don't have access to e-commerce sites. Also, instant delivery and a personalized experience are expected to boost the revenue growth of the segment.

Phosphate segment is expected to account for the largest revenue share over the forecast period. Increasing need for phosphate salts in fertilizers has led to an increase in demand for phosphoric acid. Also, phosphoric acid is used in reducing soluble copper and lead in potable water supplied to the consumer.

The agriculture segment is expected to register a steady revenue growth rate during the forecast period owing to the increasing need for a rich source of phosphorous for plants. Phosphoric acid is primarily used to make fertilizers. Essentially, it is converted into three phosphate salts for use as fertilizers, such as Triple Superphosphate (TSP), Diammonium Hydrogen Phosphate (DAP), and Monoammonium Dihydrogen Phosphate (MAP).

Market in Asia Pacific is expected to account for the largest revenue share in the global market during the forecast period. Rapid growth rate of the market is attributed to the increasing presence of healthcare and pharmaceutical companies in the region. Phosphoric acid in the healthcare industry and pharmaceutical industry are used to manufacture anti-nausea medicines. In addition, the increasing adoption of agricultural practices in countries like India and China has also led to a rise in the use of phosphoric acid in fertilizers.

Regional Outlook

North America (U.S., Canada)

Europe (U.K., Italy, Germany, France, Rest of EU)

Asia Pacific (India, Japan, China, South Korea, Australia, Rest of APAC)

Latin America (Chile, Brazil, Argentina, Rest of Latin America)

The Middle East & Africa (Saudi Arabia, U.A.E., South Africa, Rest of MEA)

To know more about the report: https://www.reportsanddata.com/report-detail/phosphoric-acid-market

Market Segmentation:

Production Method Outlook (Revenue, USD Billion, Volume, Kiloton; 2019-2030)

Wet Process

Thermal Process

Dry Kiln Process

Grade Outlook (Revenue, USD Billion, Volume, Kiloton; 2019-2030)

Electronic Grade

Food Grade

Technical Grade

Distribution Channel Outlook (Revenue, USD Billion, Volume, Kiloton; 2019-2030)

Online

Offline

Application Outlook (Revenue, USD Billion, Volume, Kiloton; 2019-2030)

Phosphate

Industrial Application

Fertilizer Chemicals

Home Cleaning Agents

Others

Industry Vertical Outlook (Revenue, USD Billion, Volume, Kiloton; 2019-2030)

Agriculture

Food & Beverage

Pharmaceutical

Electronics

Water Treatment

Others

Request a customization of the report: https://www.reportsanddata.com/request-customization-form/2650

Table of Contents:

Report Overview

1.1 Research Scope

1.2 Key Phosphoric Acid market segments

1.3 Major players

1.4 Market analysis by product type

1.5 Market analysis by application

1.6 Report timeline

Global Growth Trends

2.1 Global Phosphoric Acid market size

2.2 Latest regional market trends

2.3 Emerging growth trends

Competitive Outlook

3.1 Global Phosphoric Acid market key players

3.2 Global Phosphoric Acid size by manufacturers

3.3 Products of major players

3.4 Entry barriers in the Phosphoric Acid market

3.5 Mergers, acquisitions, joint ventures, and other strategic alliances

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Applications of Phosphoric Acid in Various Industries

Fertilizer production relies heavily on phosphoric acid (H3PO4), making it one of the most often used acids. There are several uses for phosphates, which are the salts of this acid. This is a word that chemistry students may come across on a regular basis. To place an order for Phosphoric acid for your science lab in your school or educational institute in Sharjah, Palvi FZE is one of the most affordable as well as distinct Phosphoric Acid suppliers in Sharjah.

Weak acids, such as phosphoric acid, are acidic in nature. In order to differentiate it from various types of phosphoric acids like polyphosphoric acid, it is sometimes known as orthophosphoric acid. Phosphoric(V) acid is a different name for this acidic substance. This acid is solid at room temperature as well as non-toxic in its pure form. In terms of molecular weight, it weighs 97.99 g/mol.

The mineral acid H3PO4 is considered one of the most helpful as well as essential. The acid is a colourless, odourless, and nonvolatile liquid that is most commonly found as an aqueous solution. In spite of being a "weak acid," the solution is a viscous and sticky liquid that can irritate or burn your skin and harm your eyes and your nasal membranes.

Physical Properties listed by one of the top ranking Phosphoric Acid exporters in Sharjah:

●  Solid white crystals

●   Melting Point 42.4°C.

●   Colourless, Odourless and Viscous acid.

●   Non-toxic and Stable.

Chemical Properties:

●    As many as three H+ ions can be liberated by phosphoric acid, which is H3PO4. As compared to various mineral acids, Phosphoric acid has a unique reaction.

●   When reacting with bases, three types of salts are often formed.

●   Meta-phosphoric, as well as Polyphosphoric acids, produce dimers, trimers, and even lengthy polymeric chains when phosphoric acid molecules are heated to high temperatures.

Applications of Phosphoric Acid in Various Industries:   

Agriculture:

Fertilizers account for the majority of the phosphoric acid generated. It is primarily transformed into fertilizer-grade triphosphate salts such as,

●     Triple superphosphate (TSP)

●     Diammonium hydrogen phosphate (DAP)

●     Monoammonium dihydrogen phosphate (MAP)

Phosphoric acid is also included as a feed additive for livestock, swine, and poultry.   

Food additives:

The acidic taste of phosphoric acid can be enjoyed in diluted solutions. As a result, it's found in foods as an additive. Because of this, it gives off an acidic smell to

●     Soft drinks.

●     Other readymade foods.

●     Water treatment products.    

Manufacturing process:

Phosphoric acid is used to manufacture

●     Gelatin.

●     Soil stabilizer.

●     Waxes and polishes.

●     Binder for ceramics.

●     Activated carbon.

●     In lakes in cotton dyeing.    

Medical applications:

●     In dental cement.

●     In Preparation of albumin derivatives.

●     To acidify the urine.

●     To remove necrotic debris.

●     In anti-nausea pills.

●     In mouth washing liquid as well as teeth whiteners.   

Personal care:

The following personal care products would not be possible without phosphoric acid:

●     Cleansing products

●     Bath products

●     Fragrances

●     Haircare products

●     Nail products

●     Makeup

●     Skincare products    

Rust removal:

Rust can be removed with phosphoric acid. Phosphoric acid reacts with rust on metals like steel and iron when applied to the rust. Afterwards, the rust is transformed into a black-coloured compound that may be easily removed from the surface. If you are looking for an excellent Phosphoric Acid distributor in Sharjah, Palvi FZE is the best pick for you who can fulfil all of your rust removal as well as industrial chemical needs.   

Other uses:

●     Products for the care and maintenance of automobiles

●     Batteries

●     Cleaning and care products for the semiconductor industry

●     Electronic and electrical goods

●     packaging for food

●     Combustibles and their byproducts

●     Dishwashing and laundry products

●     Products for maintaining a lawn or garden

●     Unaddressed metal products

●     Coatings and paints are

●     Products made of paper

●     Camera equipment, film, and photo-processing chemicals

●     Not covered elsewhere are plastic and rubber items.

●     Dispersal of Chemicals

●     Media used in industrial fermentation

●     Plating cleaners for automobiles and heavy equipment

Phosphoric Acid Market Size And Growth to 2028

The Phosphoric Acid Market research report is a broad analysis on the study of Phosphoric Acid industry. It comprises of an organized method to bring together and document information about the Phosphoric Acid industry, market, or potential customers. The report has answers to many important questions that companies may have when operating in the Phosphoric Acid industry. This Phosphoric Acid Market report highlights exhaustive study of major market along with present and forecast market scenario with valuable business decisions. The report offers market size, industry growth, share, development trends, product demand, investment plans, business idea, forecasts to 2029 and more. The Phosphoric Acid Market report analyzes many aspects that benefit businesses to get the answers for the toughest business questions. In this regard, it evaluates current CAGR of the Phosphoric Acid Market. Assesses the product and application that is expected to show the highest market growth in the Phosphoric Acid industry. Moreover, the report figures out whether there will be any changes in market competition during the forecast period. It estimates the region that is foretold to create the most number of opportunities in the global market. Phosphoric Acid Market analysis helps to get up to date about several segments that are relied upon to observe the rapid business development amid the estimate forecast frame. Market Analysis and Insights : Global Phosphoric Acid Market

The global market is expected to grow during the forecast period 2021 to 2028. Bridge Market Research data analyzes that the market will grow at a CAGR of 4.2% during the forecast period 2021-2028 and is expected to reach $47,718.13 million in 2028. Increased demand for phosphoric acid in the food and pharmaceutical industries, stimulating the growth of the global phosphoric acid market.

Phosphoric acid refers to crystalline acid, which is usually weak, colorless, and odorless. This inorganic material is corrosive to ferrous metals and alloys and has good solubility in water. They tend to decompose at high temperatures. In combination with alcohol, they can form toxic fumes. Thermal process, oven drying process and wet process for phosphoric acid production.

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                            Phosphoric Acid Market Developments 2021

In July 2021, Nutrition signed a three-year supply agreement for pure phosphoric acid (PPA) with Innophos Holdings, Inc. This agreement helps the company grow its business. In September 2020, Clariant AG launched a new and innovative phosphate ester that offers outstanding performance and superior stability in metalworking fluid formulations. This product launch helps the company expand its product portfolio.R

Scope of the Phosphoric Acid Market

The global phosphoric acid market is segmented into four important segments based on process type, form, grade and application. Cross-segment growth helps you analyze growth niches and market targeting strategies, as well as identify your key application areas and differences in your target market.

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Key Pointers Covered in Phosphoric Acid Market Industry Trends and Forecast to 2028

·        Market Size

·        Top to Bottom Market Analysis

·        Recent Developments for Market Competitors

·        Recent Market Value for Different Countries

·        Market value and over view of Phosphoric acid  market

·        Company profiling of top eight players of  Phosphoric acid  market

Key Market Competitors Covered in the Report

 ·        Nutrien Ltd.

·        OCP

·        J.R. Simplot Company.

·        Brenntag North America, Inc.

·        Arkema

·        ICL

·        Innophos

·        Spectrum Chemical

·        Solvay

·        Merck KGaA

Competitive Landscape and Global Phosphoric Acid Market Share Analysis

The competitive landscape in the global Phosphoric Acid market provides a breakdown of competitors. Details included are company overview, company finances, revenue generated, market potential, R&D investment, new market initiatives, manufacturing locations and facilities, company strengths and weaknesses, product launches, product testing lines, product approvals, patents, product breadth and breadth , Application dominance, technology lifeline curve. The data above relates only to the company's focus on the global phosphoric acid market.

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Global Pharmaceutical Lecithin Market 2022 –Key Players, Industry Demand, Overview and Supply Chain Analysis, Forecast 2028

The Pharmaceutical Lecithin Market will change significantly from the previous year. Over the next five years, will register a CAGR in terms of revenue, and the global market size will reach USD in millions by 2028.

Pharmaceutical lecithin is a form of lecithin found in pharmaceuticals, nutritional supplements, and APIs (Active Pharmaceutical Ingredients). Phosphatidylcholine and other glycolipids make up this substance. It also helps to improve the bioavailability, stability, and absorption qualities of APIs. It can be found in pharmaceutical tablets, capsules, and liquid formulations with the goal of improving energy metabolism, cognitive function, cardiovascular health, and blood lipid profile.

Lecithin is a type of lipid that is essential for the body and may be found in a variety of foods, including egg yolk, soybeans, and others. Because of its numerous health benefits, lecithin has been increasingly popular in recent decades. The majority of commercial lecithin comes from raw sources like soybean and egg yolk. Other raw materials with low lecithin content, such as cottonseed, corn germ, palm and palm derivatives, and coconut oil, are uneconomical to extract commercially.

The global Pharmaceutical Lecithin market size is expected to exhibit significant growth in the future. East Asia is projected to offer beneficial opportunities during the forecast period of 2022-2028. Increasing the use of food-grade phosphate in the food industry for increasing the shelf life of the products as well as imparting flavor and texture is a considerable factor for growth in the foreseeable future.

The Major Players In The Pharmaceutical Lecithin Market Include:

·         Lipoid GmbH

·         Cargill

·         Danisco

·         LECICO

·         Bunge Lecithins

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Market has segmented the global Pharmaceutical Lecithin market on the basis of type, application, and region:

By Type:

·         Sodium Phosphate {Sodium Tripolyphosphate, Sodium Acid Pyrophosphate}

·         Potassium Phosphate {Monopotassium, Dipotassium,Tetrapotassium}

·         Calcium Phosphate

·         Phosphoric Acid

·         Ammonium Phosphate

 By Application:

·         Pharmaceutical Supplements

·         Dietary Supplements

·         API

Global Pharmaceutical Lecithin Market:

Regions Covered

·         North America (U.S., Canada, Mexico)

·         Europe (Germany, U.K., France, Italy, Russia, Spain, Rest of Europe)

·         Asia-Pacific (China, India, Japan, Southeast Asia, Rest of APAC)

·         Middle East & Africa (GCC Countries, South Africa, Rest of MEA)

·         South America (Brazil, Argentina, Rest of South America)

The Pharmaceutical Lecithin market is segmented by type and application. Growth between segments over the period 2022-2028 provides accurate calculations and forecasts of revenue by type and application in terms of volume and value. This analysis can help you expand your business by targeting eligible niches.

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Covid-19 Impact and Recovery Analysis on Industry:

The COVID-19 pandemic has had devastating effects on several industry verticals globally. To constrain the number of cases and slow the coronavirus spread, various public health guidelines were implemented in different countries across the globe. COVID-19 protocols ranging from declaring national emergency states, enforcing stay-at-home orders, closing nonessential business operations and schools, banning public gatherings, imposing curfews, distributing digital passes, and allowing police to restrict citizen movements within a country, as well as closing international borders. With the growing vaccination rate, governments are uplifting the protocols to give a boost to the stagnant economy. Like other industries,  Pharmaceutical Lecithin Market have experienced slowdown the growth, however market is expected bounce back as restrictions are being lifted up by governments across the globe. 

With strategic analysis, micro and macro market trend and scenarios, pricing analysis, and a holistic overview of the market conditions in the forecast period, the Pharmaceutical Lecithin Market research report keeps a close eye on top rivals. It's a thorough research that focuses on key and secondary drivers, market share, leading segments, and geographic analysis. The paper also examines significant players, major collaborations, mergers and acquisitions, as well as current innovation and corporate strategies.

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Key Benefits for Industry Participants & Stakeholders:

·         Industry drivers, restraints, and opportunities covered in the study

·         Neutral perspective on the market performance

·         Recent industry trends and developments

·         Competitive landscape & strategies of key players

·         Potential & niche segments and regions exhibiting promising growth covered

·         Historical, current, and projected market size, in terms of value

·         In-depth analysis of the Pharmaceutical Lecithin Market

Food Phosphate Market Analysis, Recent Trends, And Regional Growth  Types And Applications

Food Phosphate Market size is projected to reach USD 3.75 billion from an estimated USD 2.65 billion in 2021, growing at a CAGR of 6% globally.

Food phosphates are defined as items that help improve the flavour and moistness of solid meat, fish, and other foods. Phosphates like these help with tissue homeostasis and repair, as well as aiding growth and storing large amounts of energy in the body.  Food Phosphate consumption is expected to rise as a result of increased demand in a range of applications. Because to reasons such as the rise of several end-use industries, the Food Phosphate market has grown rapidly. Furthermore, the constantly changing economic structure, together with increased demand for bakery food items such as cakes, pastries, pizzas, and other baked delicacies, presents a big market potential for important food industry players. However, there are health risks.

The global Food Phosphate market size is expected to exhibit significant growth in the future. East Asia is projected to offer beneficial opportunities during the forecast period of 2022-2028. Increasing use of food grade phosphate in the food industry for increasing the shelf life of the products as well as imparting flavor and texture is a considerable factor for growth in the foreseeable future.

The Major Players In The Food Phosphate Market Include:

Xinga USA Corporation (US),Haifa Chemicals LTD (Israel),Aditya Birla Chemicals (India),Natural Enrichment Industries LLC (US),Nutriscience Innovations LLC (US),Agrium INC. (Canada),Potash Corporation (Canada),Hawkins INC. (US),Innophos Inc (US),ATP Group (US),Qingdao Samin Chemical Co. Ltd. (US),The Mosaic Company (US),and others

Market has segmented the global Food Phosphate market on the basis of type, application, and region:

By Type:

·         Sodium Phosphate {Sodium Tripolyphosphate, Sodium Acid Pyrophosphate}

·         Potassium Phosphate {Monopotassium, Dipotassium,Tetrapotassium}

·         Calcium Phosphate

·         Phosphoric Acid

·         Ammonium Phosphate

 By Application:

·         Dairy

·         Beverages

·         Bakery Products

·         Meat And Seafood Processing

·         Spice Blends And Others

Global Food Phosphate Market:

Regions Covered

·         North America (U.S., Canada, Mexico)

·         Europe (Germany, U.K., France, Italy, Russia, Spain, Rest of Europe)

·         Asia-Pacific (China, India, Japan, Southeast Asia, Rest of APAC)

·         Middle East & Africa (GCC Countries, South Africa, Rest of MEA)

·         South America (Brazil, Argentina, Rest of South America)

The Food Phosphate market is segmented by type and application. Growth between segments over the period 2022-2028 provides accurate calculations and forecasts of revenue by type and application in terms of volume and value. This analysis can help you expand your business by targeting eligible niches.

Covid-19 Impact and Recovery Analysis on Industry:

The COVID-19 pandemic has had devastating effects on several industry verticals globally. To constrain the number of cases and slow the coronavirus spread, various public health guidelines were implemented in different countries across the globe. COVID-19 protocols ranging from declaring national emergency states, enforcing stay-at-home orders, closing nonessential business operations and schools, banning public gatherings, imposing curfews, distributing digital passes, and allowing police to restrict citizen movements within a country, as well as closing international borders. With the growing vaccination rate, governments are uplifting the protocols to give a boost to the stagnant economy. Like other industries,  Food Phosphate Market have experienced slowdown the growth, however market is expected bounce back as restrictions are being lifted up by governments across the globe. 

Reasons to Purchase the Food Phosphate Market Report:

·         The report includes a plethora of information such as market dynamics scenario and opportunities during the forecast period

·         Segments and sub-segments include quantitative, qualitative, value (USD Million,) and volume (Units Million) data.

·         Regional, sub-regional, and country level data includes the demand and supply forces along with their influence on the market.

·         The competitive landscape comprises share of key players, new developments, and strategies in the last three years.

·         Comprehensive companies offering products, relevant financial information, recent developments, SWOT analysis, and strategies by these players.