#Sodium Bisulfate
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Sodium Bisulfate Prices | Pricing | News | Database | Chart | Forecast
Sodium Bisulfite Prices is an important chemical compound used across various industries, which has a significant impact on its market price. The price trends for sodium bisulfite are influenced by several factors including raw material availability, production costs, demand from different end-use sectors, and regional market dynamics. This versatile compound is primarily used as a reducing agent in various processes, a preservative in food and beverages, a water treatment chemical, and in the pulp and paper industry. The demand from these key industries often dictates pricing, and any fluctuation in their activity or regulations affecting their operations can directly alter the cost of sodium bisulfite.
Environmental regulations also play a critical role in sodium bisulfite pricing. Many regions have imposed stricter regulations on industrial emissions and waste treatment, leading to increased use of sodium bisulfite as a treatment solution. This demand has, at times, pushed up prices, especially when producers have faced capacity constraints. The global push for environmentally friendly solutions and stringent water treatment protocols have also caused fluctuations in demand. When regulatory enforcement is strong, industries may need to procure more sodium bisulfite, which can drive up market prices due to increased consumption.
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On the demand side, the market is significantly influenced by the food and beverage industry. Sodium bisulfite is widely used as a preservative and a food additive, and any changes in consumer preferences, regulatory limits on its use, or shifts in global food production can lead to corresponding adjustments in demand. The chemical's price can spike when there is increased demand from food processors seeking to preserve perishable items or meet food safety standards. However, it may face downward pressure when alternative preservatives or substitutes are preferred, or when regulatory restrictions limit its use. The cyclical nature of demand from the food and beverage sector, often tied to seasonal trends and broader economic conditions, makes it a key variable in pricing.
The pulp and paper industry is another major consumer of sodium bisulfite, and fluctuations in the health of this sector have a notable impact on the compound’s price. This industry uses sodium bisulfite in the bleaching and pulping processes. Demand from this sector can be influenced by changing consumption patterns of paper products, advancements in recycling processes, and shifts toward digital communication, which can reduce paper usage. In periods of strong demand from this industry, sodium bisulfite prices may rise due to increased consumption rates. Conversely, during times of reduced paper production, prices can drop due to weakened demand.
Global economic conditions also have a strong bearing on the sodium bisulfite market. Economic downturns and recessions can lead to decreased demand from many of its key sectors, including food processing, water treatment, and pulp and paper, resulting in downward pressure on prices. Conversely, periods of economic growth typically stimulate demand, potentially driving prices higher. Trade policies, tariffs, and import-export regulations also impact market dynamics by influencing the availability of sodium bisulfite across different regions.
Price trends for sodium bisulfite also vary by region, driven by localized demand, production capacities, and regulatory environments. In regions where local production is insufficient, reliance on imports can drive up prices due to transportation costs and import duties. Conversely, regions with abundant local production capabilities may experience more competitive pricing. The presence of large players with significant market share can also lead to price stabilization, while fragmented markets might experience greater price variability.
Technological advancements and process improvements can also impact pricing. Innovations that increase the efficiency of sodium bisulfite production can reduce costs, potentially leading to lower market prices. On the other hand, investments in new technologies or upgrades to meet environmental standards may lead to short-term price increases to offset capital expenditures. The competitive landscape of producers, coupled with their strategies to enhance production and maintain market share, further influences the pricing structure.
The sodium bisulfite market is expected to see continued fluctuations in pricing due to a combination of global economic shifts, regulatory changes, raw material availability, and evolving demand from key sectors. Understanding these dynamics is crucial for businesses that rely on sodium bisulfite, as it helps in better anticipating cost trends and managing procurement strategies effectively. The interconnected factors that drive price changes underscore the complexity of this market and the need for careful monitoring by all stakeholders.
Our Related News for Sodium Bisulfite: https://www.chemanalyst.com/NewsAndDeals/NewsDetails/global-sodium-bisulfite-prices-show-significant-uptick-in-september-2024-30626
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#Sodium Bisulfate#Sodium Bisulfate Price#Sodium Bisulfate Prices#Sodium Bisulfate Pricing#Sodium Bisulfate News#Sodium Bisulfite Price Market
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Sodium Bisulfate Prices Trend, Monitor, News & Forecast | ChemAnalyst
Sodium bisulfate prices, reflecting the cost of this chemical compound, have experienced fluctuations driven by various factors such as global market dynamics, industrial demand, and production costs. Understanding these price movements entails a comprehensive analysis of supply and demand dynamics, regulatory changes, and macroeconomic indicators.
The pricing of sodium bisulfate is significantly influenced by the balance between supply and demand within industries such as water treatment, cleaning products, food processing, and chemical manufacturing. Sodium bisulfate, also known as sodium hydrogen sulfate, serves various purposes including pH adjustment in water treatment, acidifier in cleaning products, preservative in food processing, and chemical intermediate in various industrial processes. Disruptions in the supply chain, such as fluctuations in raw material availability, manufacturing capacity, or transportation logistics, can affect the availability and cost of sodium bisulfate, thereby influencing its market price.
Industrial demand plays a crucial role in determining sodium bisulfate prices. Industries such as water treatment, cleaning, and food processing rely heavily on sodium bisulfate for its versatile properties. Fluctuations in demand from these sectors, influenced by factors such as regulatory requirements, technological advancements, and economic conditions, can lead to price volatility for sodium bisulfate.
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Raw material costs significantly impact sodium bisulfate prices. The price of raw materials such as sulfuric acid, which is used in sodium bisulfate production, can fluctuate due to changes in global supply and demand dynamics, energy costs, and regulatory factors. Any significant increase in raw material costs can translate into higher production costs for sodium bisulfate manufacturers, thereby exerting upward pressure on prices.
Macroeconomic indicators, such as GDP growth, industrial output, and consumer spending, can indirectly affect sodium bisulfate prices by influencing overall demand for products containing sodium bisulfate. Economic downturns or slowdowns in major manufacturing regions may lead to decreased demand and downward pressure on prices. Conversely, robust economic growth and increased industrial activity can support higher prices for sodium bisulfate by stimulating demand for water treatment chemicals, cleaning products, and industrial chemicals.
Regulatory changes and quality standards also play a role in shaping sodium bisulfate prices. Government regulations on water quality, food safety, and chemical safety can impact production costs and market access for sodium bisulfate manufacturers. Compliance with these regulations may require investments in technology and process improvements, influencing pricing dynamics.
Looking ahead, several factors are expected to continue influencing sodium bisulfate prices. Continued growth in sectors such as water treatment, cleaning, and food processing, coupled with increasing demand for environmentally friendly and sustainable chemicals, is likely to drive sustained demand for sodium bisulfate. Moreover, advancements in manufacturing technologies and changes in regulatory landscapes could lead to changes in market dynamics and price levels for sodium bisulfate.
In conclusion, sodium bisulfate prices are subject to a complex interplay of factors including supply and demand dynamics, industrial trends, raw material costs, regulatory changes, and macroeconomic indicators. Stakeholders in the water treatment, cleaning, food processing, and chemical industries must closely monitor these factors to anticipate price movements and make informed decisions. As industries evolve and regulatory requirements change, navigating the dynamic landscape of sodium bisulfate pricing will remain a key challenge for industry participants.
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Able
Worker Wage - ★★★★☆
90% of the workforce at ABLE is female, changing the community by assigning empowering jobs to women. Able partners with vendors who share the same mindset.
Nashville minimum wage: $7.25/ hour Nashville individual living wage: $14.84/ hour (data from MIT Living Wage Calculator) Lowest wage at ABLE: $15.00/ hour
Wage scored by third party on-site auditor, employee interviews and verified company documents: 89.6% There is no confirmation on how much workers outside of the United States are making.
Working Conditions - ★★★☆☆
We have found that workers at ABLE prioritize empowering women and disadvantaged communities by providing fairly paid jobs, but they only ensure a living wage to the workers in the final production stage. The company also partly traces its supply chain through all stages of production. They do use a third-party auditor to audit their suppliers every year.
Sustainable Materials - ★★★★☆
ABLE claims to use eco-conscious materials and guarantees the pieces to last a lifetime:
Leather used is upcycled from discarded animal hides. Vendor partners use a 100% recycled, closed-loop water system. Sterling silver used is recycled. They steer clear from harsh chemicals like citric acid, instead of sodium bisulfate, for cleaning newly soldered jewelry. Scrap metal is collected and sent to a refinery to be recycled. Denim is sourced from western partners to reduce carbon footprint. They use a liquid indigo that requires less water when being washed. Denim scraps are given to the government to use for housing insulation. Packaging is in the process of becoming 100% recyclable.
Overall, ABLE prioritizes the longevity of their products through the use of low-impact and recycled materials, but there is no evidence they are taking action to eliminate or lessen their use of hazardous chemicals.
Environmental Impact - ★★★★☆
ABLE impacts the environment through the use of sustainable materials and the longevity of their products, resulting in less clothing in landfills.
Social Impact - N/A
Due to the size of the brand, there is not a discernible social impact.
Inclusivity - ★★★★★
ABLE’s website reflects their efforts for inclusivity, showcasing their choice for diverse models and available sizes, ranging from XXS-3X. Prices range from $30 to upwards of $300.
Sources:
https://www.ableclothing.com/pages/social-responsibility https://directory.goodonyou.eco/brand/able
#ABLE#fashion#sustainability#4 Star Worker Wage#3 Star Working Conditions#4 Star Sustainable Materials#4 Star Environmental Impact#5 Star Inclusivity#XXS-3X
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Experience Sparkling Clean Water All Year Round
Owning a swimming pool can be a dream come true, providing a refreshing escape during hot summer days and a fun gathering place for friends and family. However, maintaining that dream requires consistent effort and knowledge. To experience sparkling clean water all year round, it's crucial to understand the ins and outs of pool maintenance and the resources available to you.
The Importance of Regular Pool Service
One of the best ways to ensure your pool remains in pristine condition is to invest in a professional swimming pool service near me. These experts offer tailored solutions that cater to your pool’s specific needs, ensuring that it stays clean, balanced, and safe for swimming.
A professional pool service typically includes regular cleaning, water testing, and chemical balancing. By adhering to a consistent schedule, you can prevent common issues that lead to cloudy or green water. Regular maintenance not only keeps your pool looking great but also extends its lifespan and minimizes costly repairs.
Understanding Water Chemistry
Water chemistry plays a vital role in keeping your pool sparkling. One common issue pool owners face is managing pH levels. If your pool water has a high pH, it can lead to cloudy water, scaling on pool surfaces, and reduced effectiveness of chlorine. So, how do you manage this?
To learn how to lower pH in pool water, you can follow these steps:
Test Your Water: Use a reliable testing kit to determine the current pH levels.
Add pH Reducer: If your pH is above 7.8, add a pH reducer (usually muriatic acid or sodium bisulfate) according to the manufacturer’s instructions.
Retest the Water: After adding the reducer, allow the water to circulate for a few hours, then retest the pH to ensure it is in the desired range (7.2 to 7.8).
Regular Maintenance: Incorporate regular testing and balancing into your pool service routine to prevent pH issues in the future.
Troubleshooting Common Problems
Sometimes, despite your best efforts, you may encounter problems like a pool is green but chlorine is high. This situation can be perplexing, but it typically indicates a different issue at play, often related to algae growth or inadequate circulation.
In such cases, follow these steps:
Check Water Circulation: Ensure that your pool’s filtration system is functioning properly. Poor circulation can contribute to algae growth, even in chlorinated water.
Shock the Pool: Use a chlorine shock treatment to increase chlorine levels rapidly, targeting any stubborn algae.
Brush and Vacuum: Manually brush the pool walls and floor to dislodge algae, followed by vacuuming to remove debris.
Consult Professionals: If the issue persists, it might be time to reach out to a pool repair near me service. They can identify underlying problems and provide solutions to restore your pool to its sparkling condition.
Seasonal Considerations
Maintaining clean water isn’t just a summer task; it’s an all-year commitment. Seasonal changes can affect your pool’s cleanliness and chemical balance. Here are some tips to keep in mind:
Winter Preparation: Before winter arrives, ensure your pool is properly winterized. This includes cleaning, balancing chemicals, and covering the pool to prevent debris accumulation.
Spring Opening: When you reopen your pool in the spring, inspect it for any damages and perform a thorough cleaning. Test the water and balance it accordingly.
Regular Maintenance Throughout the Year: Schedule regular services, even during off-seasons, to keep everything in check. A professional swimming pool service near me can help you create a maintenance plan that suits your needs.
Conclusion
Achieving and maintaining sparkling clean water in your pool year-round is entirely possible with the right knowledge and resources. By investing in a reliable pool service, regularly testing and balancing your water chemistry, and troubleshooting common issues, you can enjoy a pristine swimming experience.
Whether you're learning how to lower pH in pool water or addressing a stubborn green pool, remember that professional help is just around the corner. Don't hesitate to seek out pool repair near me services when needed. Embrace the joy of a well-maintained pool and create lasting memories with family and friends in your beautiful, sparkling oasis!
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Anomaly Pool Services: The Best Pool Cleaning Services Near You
Owning a swimming pool comes with the joy of relaxation, fun, and exercise, but it also comes with the responsibility of maintaining it to ensure it's always in optimal condition. Whether you’re dealing with regular upkeep or facing common pool problems like algae growth, Anomaly Pool Services is here to help. If you're searching for pool cleaning services near me or expert pool care solutions, you've come to the right place.
With years of experience, Anomaly Pool Services provides a full range of pool services to ensure your pool remains clean, safe, and ready for use all year long. From balancing chemicals to handling complex problems like a green pool, their professional team has the tools and expertise to keep your pool in top shape. Let’s dive deeper into why hiring pool services can be a game-changer for pool owners.
The Importance of Professional Pool Services
Maintaining a pool goes beyond just skimming leaves off the surface. It requires consistent water treatment, equipment checks, and addressing issues like pH imbalance or algae outbreaks. By hiring a swimming pool service near me, you are guaranteed expert care that saves time, reduces stress, and ultimately extends the life of your pool.
Anomaly Pool Services provides tailored maintenance plans, including routine cleaning, chemical balancing, filter maintenance, and repairs. Their services not only keep your pool sparkling but also safeguard your investment by preventing costly repairs down the line. They are the perfect solution for homeowners who may lack the time, knowledge, or equipment to maintain their pool correctly.
How to Lower pH in Pool
One of the most common concerns pool owners face is maintaining proper pH levels in their pool water. The pH level determines how acidic or basic the water is, and it should ideally fall between 7.2 and 7.6 for a safe and comfortable swimming experience. If the pH is too high, the water becomes too alkaline, which can lead to cloudy water, scaling on pool surfaces, and irritation of the skin and eyes.
If you’re wondering how to lower pH in pool, professionals like Anomaly Pool Services use specific chemicals like muriatic acid or sodium bisulfate (dry acid) to bring the pH back into balance. Here’s how they do it:
Testing the Water: Before making any adjustments, the technicians will test the water to determine the exact pH level.
Adding Chemicals: Depending on the severity of the pH imbalance, they’ll add the correct amount of acid to lower the pH. This is done by carefully pouring the acid into the pool, usually in the deep end, while the pump is running to distribute it evenly.
Retesting the Water: After allowing the water to circulate for a few hours, they’ll retest the pH to ensure it’s within the ideal range.
Maintaining the right pH not only ensures swimmer comfort but also enhances the effectiveness of chlorine, helping to keep your pool clean and algae-free.
What to Do When Your Pool Is Green but Chlorine Is High
A common and frustrating issue for many pool owners is when the pool is green but chlorine is high. High chlorine levels are supposed to sanitize the water and prevent algae growth, so why would the water still turn green? This could happen due to a few reasons:
pH Imbalance: Even with high chlorine levels, if your pH is out of balance, the chlorine becomes less effective at killing algae.
Algae Growth: Sometimes, stubborn algae strains can resist chlorine. This usually happens when the pool hasn’t been adequately maintained, or if debris is left to accumulate in the water for too long.
Stabilizer Overload: Excessive stabilizer (cyanuric acid) can reduce the effectiveness of chlorine, leading to algae blooms despite high chlorine levels.
Anomaly Pool Services can help you tackle this problem with a comprehensive algae treatment plan. Here’s what they typically do:
Water Testing: They’ll begin by testing the water’s pH, alkalinity, and chlorine levels to pinpoint the problem.
Shock Treatment: If necessary, they will shock the pool with a high dose of chlorine or an algaecide to kill the algae.
Brushing and Cleaning: The pool surfaces, including the walls and floor, will be thoroughly brushed to loosen algae. The technicians will then vacuum the pool to remove all debris.
Filter Maintenance: If algae have clogged your pool’s filter, they’ll clean or replace it to ensure proper water circulation.
By using these expert services, you’ll quickly see your pool transform from green and cloudy to crystal clear again.
Why Choose Anomaly Pool Services?
Searching for pool cleaning services near me can lead to a variety of choices, but Anomaly Pool Services stands out due to their commitment to quality, reliability, and customer satisfaction. Their trained professionals are equipped to handle any pool problem, from regular cleanings to more serious water chemistry issues. They offer both one-time services and regular maintenance plans, ensuring your pool stays pristine and ready for enjoyment.
Here’s why they are the top choice for pool owners:
Experienced Technicians: With years of experience in pool care, their team is knowledgeable about all types of pools and the common issues that arise.
Comprehensive Services: They handle everything from water testing and balancing to equipment inspections and repairs, offering a one-stop solution for all your pool needs.
Custom Solutions: Every pool is different, so they tailor their services to fit the specific needs of your pool, whether it's dealing with a pH imbalance, algae growth, or equipment malfunctions.
Affordability: Their competitive pricing ensures you get top-tier service without breaking the bank.
Conclusion
Owning a pool should be a source of enjoyment, not stress. By partnering with Anomaly Pool Services, you can rest easy knowing your pool is in the best hands. From regular cleanings to solving tricky issues like a pool is green but chlorine is high, they provide the comprehensive care you need to keep your pool beautiful, safe, and fun for everyone.
So, if you’re searching for swimming pool service near me, look no further. Contact Anomaly Pool Services today and experience the difference professional pool care can make!
#pool cleaning services near me#pool services#swimming pool service near me#pool is green but chlorine is high
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Sodium Bisulphite Market - Forecast(2024 - 2030)
Sodium Bisulphite Market Overview
Furthermore, surging use of Sodium Bisulphite as disinfectant, and antioxidant in cosmetics and personal care products further fuels the market growth.
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This trend signifies a growing awareness and recognition of sodium bisulphite’s versatile properties in the beauty and personal care industry. The surge in the use of sodium bisulphite as a disinfectant and antioxidant is particularly notable. Cosmetics and personal care product manufacturers are incorporating sodium bisulphite into formulations to enhance product stability, extend shelf life, and provide antioxidant benefits. This reflects a broader consumer demand for products that not only contribute to personal care but also emphasize safety and longevity.
As consumers become more conscious of the ingredients in their beauty and personal care items, sodium bisulphite’s role as a disinfectant and antioxidant aligns with the industry’s evolving preferences. The market growth is, therefore, propelled by the dual benefits of sodium bisulphite, addressing both cosmetic formulation needs and consumer expectations for safe and effective personal care products. This trend indicates a positive trajectory for sodium bisulphite in the cosmetics and personal care sector, contributing significantly to the overall market expansion.
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Sodium Bisulphite Market Report Coverage
The report: “Sodium Bisulphite Market — Forecast (2024–2030)”, by IndustryARC, covers an in-depth analysis of the following segments of the Sodium Bisulphite Industry.
By Grade: Food Grade, Technical Grade, and Others
By Application: Food Additive, Bleaching Agent, Water Treatment (Boiler, Paper and Pulp, Municipal, Textile, and Others), Antichlor, Reducing Agent, and Others
By End-Use Industry: Food & Beverage, Water and Wastewater Treatment, Textile, Paper & Pulp, Leather, Pharmaceuticals, Mining, Film and Photography, and Others
By Geography: North America, South America, Europe, APAC, and RoW
Key Takeaways
The increase in research and development in new drug formulation has triggered the market demand of Sodium Bisulphite in the pharmaceutical industry.
Decline in manufacturing activities and disruption of supply chain due to the outbreak of coronavirus has hampered the growth of the Sodium Bisulphite Market.
Increasing adoption of UV technologies and RO filtration lower the demand of Sodium Bisulphite from wastewater and sewage treatment plants.
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Sodium Bisulphite Market Segment Analysis — By Grade
Based on the grade, industrial grade segment holds the largest share of more than 45% in the Sodium Bisulphite Market in 2023. Sodium Bisulphite of industrial grades are used as bleaching or antichlor agent in paper industries as it reduces the natural element that causes paper to brown, from the wood pulp, and increase the brightness of paper. Owing to various environmental benefits, demand for paper and pulp is increasing which in turn augments the growth of the Sodium Bisulphite Market. For instance, the global consumption of paper and cardboard was approximately 414.19 million metric tons in 2022. Also, global import value of pulp grew by $10,019 million reaching approximately $70,274 million in 2022, according to International Trade Centre.
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Sodium Bisulphite Market Segment Analysis — By Application
Water Treatment segment holds the largest share of more than 25% in the Sodium Bisulphite Market in 2023. Sodium Bisulphite is commonly used for the removal of free chlorine and as a biostatic in water treatment plants. Sodium Bisulphite reduces free chlorine to form sodium bisulfate (NaHSO4) and hydrochloric acid (HCl). Efficacy and cost effectiveness compared to other water treatment chemicals such as ferric sulfate are major factors driving the growth of the Sodium Bisulphite Market. In addition, surging demand for freshwater pose an opportunity for the growth of Sodium Bisulphite Market. According to the Organisation for Economic Co-operation and Development, freshwater demand is projected to increase by 55% globally between 2000 and 2050, significantly aiding the market growth.
Sodium Bisulphite Market Segment Analysis — By End-Use Industry
Food & Beverage segment holds the largest share of more than 30% in the Sodium Bisulphite Market in 2023. A significant rise in per capita consumption of packaged food and beverages, is likely to have a major impact on the demand for Sodium Bisulphite because Sodium Bisulphite is used as a preservative and as a steeping agent. According to The Association for Packaging and Processing Technologies (PMMI) The U.S. beverage market is projected to experience a Compound Annual Growth Rate of 5.2% until the year 2025. Whereas, Food grade Sodium Bisulphite is commonly used as a preservative in food manufacturing processes and also used in the manufacturing of paper intended for direct food contact applications.
Sodium Bisulphite Market Segment Analysis — By Geography
Asia Pacific has dominated the Sodium Bisulphite Market with a share of more than 45% in 2023 followed by North America and Europe. Population growth combined with rapid industrialization and high disposable income are driving the growth of Sodium Bisulphite Market in APAC region. Sodium Bisulphite are used in textile and leather industries as a bleaching agent for strain removal, brightening, and improving the quality of fabric. Increasing demand for apparel, growing fashion trends, and flourishing textile industries across the country is aiding the growth of the market. According to the Indian Brand Equity Foundation (IBEF), In 2022, India’s textile and apparel exports, including handicrafts, amounted to US$ 44.4 billion, reflecting a significant year-on-year growth of 41%., this may fuel the demand of Sodium Bisulphite for the bleaching process.
Sodium Bisulphite Market Drivers
Growing uses for wastewater treatment
Sodium Bisulfite is primarily used for water treatment to remove excess chlorine in drinking water. According to UN, In 2022, 2.2 billion people still lacked safely managed drinking water, including 703 million without a basic water service. Sodium bisulphite is globally used as a water softener which neutralizes the harmful bacteria present in water. The imperative need for safe water across the world is driving key players in the market to expand their operations and provide water treatment. The need for safe drinking water will lead to increased opportunities in the global sodium bisulfite market.
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Sodium Bisulphite is used externally for parasitic skin diseases and as gastrointestinal antiseptic. Accelerating use of Sodium Bisulphite as an excipient to medications in order to prevent the oxidation of adrenaline augments the growth of the market. Moreover, technology advancements and government’s spending on healthcare is expected to drive the growth of Sodium Bisulphite Market during forecast period. For instance, The Australian 2023–24 Budget allocates a landmark $6.1 billion for the enhancement of Medicare, aimed at revitalizing primary healthcare. Additionally, it earmarks an extra $2.2 billion for new and revised listings on the Pharmaceutical Benefits Scheme (PBS). The health system in Algeria has witnessed improvement in health indicators, attributed to the increased allocation of the state budget to the health sector, constituting 5.2% of the GDP. Over the past decade, the government has dedicated US $28 billion to support these advancements. Also, U.S. health care spending grew by 4.1 percent in 2022, reaching $4.5 trillion.
Sodium Bisulphite Market Challenges
Harmful effects of Sodium Bisulphite on human health
Exposure to sodium bisulfite solution cause irritation to the skin, eyes, and respiratory tract. Breathing sodium bisulfite solution vapor may aggravate asthma or other pulmonary (breathing) diseases and may cause headaches, breathing difficulties, or heart irregularity from sulfur dioxide (SO2) exposure. Thus, the harmful effects of sodium bisulfite acts as a restraining factor to the market growth. Additionally, the adoption of U.V technologies and RO water filtration whose purification efficiency is higher than Sodium Bisulphite hampers the growth of the market. Thus, an alternative dechlorination treatment system to replace Sodium Bisulphite (SBS), reduce the usage of chlorination, and achieve a chemical-free dechlorination process acts as a restraint for the market growth.
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The Covid-19 proved to be a major challenge for the growth of the Sodium Bisulphite Market. Self-isolation rules have resulted in short supply and event cancellations. Many industries are shuttered due to lack of manpower. The apparel industry body Clothing Manufacturers Association of India (CMAI) has estimated that if no assistance comes from government either in terms of wage subsidy or revival packages there could be loss of almost 1 crore jobs in the entire textile chain. Decrease in purchasing capital has slowed the growth of textile, paper & pulp, and mining industries which in turn hampered the demand for Sodium Bisulphite.
Sodium Bisulphite Industry Outlook
Product launches, acquisitions and R&D activities are key strategies adopted by players in the Sodium Bisulphite market. The key players in the Sodium Bisulphite market include
1. BASF SE
2. Aditya Birla Chemicals
3. Esseco USA LLC
4. Grasim Industries Ltd.
5. INEOS Group Ltd.
6. Chemtrade
7. Hydrite Chemical Co.
8. Hawkins, Inc.
9. KANTO CHEMICAL CO., INC.
10. Solvay S.A.
Recent Developments
In Nov 2023, Esseco Group’s acquired WATGRID which boosted the sodium bisulphite market by optimizing winemaking with AI. This enhances efficiency, offers predictive analysis in wine production, and reduces reliance on traditional methods, driving market growth, as sodium bisulphite, is commonly used for preservation and stabilization.
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Swimming Pool Chemicals Delhi NCR
Summers in Delhi NCR can be scorching, making a dip in the pool an irresistible temptation for many. However, behind the sparkling blue waters lies a crucial aspect of pool maintenance that often goes unnoticed – the chemicals used to keep the water safe and clean. In this guide, we'll explore the world of swimming pool chemicals in Delhi NCR, shedding light on their importance, types, and best practices for ensuring a safe swimming experience.
Understanding the Importance of Pool Chemicals:
Maintaining a swimming pool chemicals delhi ncr involves more than just skimming leaves off the surface. Proper chemical treatment is vital for keeping the water sanitized and free from harmful bacteria, viruses, and algae. Without adequate chemical balance, pool water can become a breeding ground for various pathogens, posing health risks to swimmers.
Types of Swimming Pool Chemicals:
Chlorine: Chlorine is perhaps the most well-known pool chemical, prized for its ability to disinfect water effectively. It works by breaking down contaminants and killing bacteria and algae. Available in various forms such as liquid, granules, and tablets, chlorine should be added regularly to maintain the recommended levels.
pH Adjusters: The pH level of pool water determines its acidity or alkalinity. Ideally, the pH should be kept between 7.2 and 7.6 for optimal comfort and effectiveness of chlorine. pH adjusters like pH increaser (sodium carbonate) and pH reducer (sodium bisulfate) are used to balance the water's acidity levels.
Algaecides: Algae growth can turn a pristine pool into a green, murky mess. Algaecides are chemicals designed to prevent algae formation and growth. They work alongside chlorine to keep the water clear and algae-free.
Clarifiers: Over time, swimming pool chemicals delhi ncr water can become cloudy due to the accumulation of fine particles. Clarifiers help in coagulating these particles, making it easier for the filtration system to remove them. This results in clearer, more inviting water.
Stabilizers: Also known as cyanuric acid, stabilizers help protect chlorine from degradation due to sunlight exposure. By stabilizing the chlorine molecules, stabilizers extend their lifespan, reducing the frequency of chlorine replenishment.
Best Practices for Pool Chemical Handling:
Read the Labels: Each pool chemical comes with specific instructions for safe handling and usage. Make sure to read and follow these instructions meticulously to avoid accidents and ensure effective treatment.
Use Protective Gear: When handling swimming pool chemicals delhi ncr chemicals, wear appropriate protective gear such as gloves and goggles to prevent skin and eye irritation.
Store Safely: Store pool chemicals in a cool, dry place, away from direct sunlight and moisture. Keep them out of reach of children and pets to prevent accidental ingestion or exposure.
Measure Accurately: Use dedicated measuring tools to accurately dose pool chemicals according to the manufacturer's recommendations. Overdosing or underdosing can lead to ineffective treatment or adverse reactions.
Regular Testing: Test the pool water regularly using a pool testing kit to monitor chlorine levels, pH, alkalinity, and other parameters. Adjust chemical dosages as needed to maintain optimal water balance.
Conclusion:
swimming pool chemicals delhi ncr chemicals play a crucial role in ensuring the safety and cleanliness of pool water in Delhi NCR's scorching summers. By understanding the types of chemicals used, following best practices for handling and maintenance, pool owners can create a safe and enjoyable swimming environment for all. So, before you take a refreshing dip, remember to give some thought to the chemicals that keep the water crystal clear and inviting.
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Salt
Combinations of things with plusses and minuses,
Ionic assemblies for rinsing your sinuses.
Used to make your food tasty, or for food preservation,
used to energize some batteries, and on the rims of tequila-based libations.
Salt helps keep things right in my cells,
not enough sodium and they'll start to swell.
But a dash of strontium chloride will redden the flames,
a pinch of sodium bisulfate is what this pool contains.
They're in the soils of mars, but Mark still grew a potato,
and you can use salt to make homemade play dough.
Clearing icy roads, and maybe raising my blood pressure,
anions and cations do so many things once they're together.
- Stefan Chin
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“I will TELL YOU in the privacy of my lab.” And now Jekyll was snapping. He didn’t mean to; he honestly didn’t, and he wasn’t sure WHERE his sudden burst of anger had come from — unless this was Hyde’s doing from within. Shaking the possibility from his mind, Jekyll continued to walk, leading Holmes through the hall. If it wasn’t so far, it would be much less awkward, but the tense atmosphere — probably caused by JEKYLL’S OWN DEFENSIVENESS; he could admit to that — made the walk seem even longer than it was.
As they approached the entrance to the lab, Jekyll sighed and replied, “I know.” This time, IT WASN’T FRUSTRATION that laced his tone; it was exasperation — he’d studied chemistry all his life, and now, it felt like Holmes was being PURPOSEFULLY CONDESCENDING. But Jekyll was somehow able to regain his composure before reaching into his pocket, pulling out the keys and unlocking the lab door.
The laboratory was a MESS — papers scattered everywhere, journals flipped open to random pages, and even a couple shattered vials that Jekyll hadn’t bothered to clean up. He didn’t like having guests in his lab; even before the experiment, his lab was A MESS. He’d work all day and be far too tired to clean it up afterwards. But after the experiment, the chaos seemed to have multiplied tenfold. Granted, not all of it was OFFICIALLY HIS doing.
“Formula’s called HJ-7.” Jekyll made his way over to an open journal, then brought it over to Sherlock, his finger pointing to the list of ingredients in the formula. The list included carbon disulfide, sodium bisulfate, sodium ferric pyrophosphate, and some other chemicals, some of which were rare and extremely difficult to obtain. HENCE JEKYLL’S DILEMMA.
And just because he was feeling a little petty, he added, “if you need any explanations about these chemicals, I’D BE HAPPY to provide.”
JEKYLL SIGHED DEEPLY, and he was forced to reluctantly acknowledge the sense of truth in the detective’s words. He hadn’t exactly been overly RECEPTIVE to the idea of help, but now that he’d pretty much told Holmes his ENTIRE LIFE STORY, he supposed there was no point in holding anything else back.
“OKAY.” With another deep sigh, the doctor stood up from his seat. “I don’t know what you THINK you’ll find that I haven’t already found, but…” The words were a mumble under his breath, though Jekyll wouldn’t be surprised if Holmes heard them. HE KNEW he needed to stop seeing Holmes as the enemy; after all, he was just trying to help, but Jekyll wasn’t sure if he could trust him. The more he knew, the more leverage he could potentially have to TURN HIM IN. But there was no going back now, so Jekyll just reluctantly accepted the circumstances.
“I’ll take you to the lab. FOLLOW ME.”
#he is… well. not happy#idk why he does this ahdkhsksh#he’s so defensiveeee#the good doctor (jekyll)#reverdies
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Sodium Bisulfate Prices | Pricing | Trend | News | Database | Chart | Forecast
Sodium Bisulfate, also known as sodium hydrogen sulfate, is a white crystalline powder widely used in various industries, including food processing, chemical manufacturing, and water treatment. Its versatility and effectiveness as a pH adjuster, cleaning agent, and oxidizing agent make it a valuable compound in many applications. In recent years, the prices of sodium bisulfate have exhibited fluctuations influenced by various factors, including raw material costs, production processes, demand-supply dynamics, and global market trends. Understanding these price trends is crucial for businesses and consumers who rely on this chemical for their operations.
The primary raw material for sodium bisulfate production is sulfuric acid, which is derived from sulfur. Any changes in the price of sulfur and sulfuric acid can directly impact the cost of sodium bisulfate. For instance, if the price of sulfur rises due to increased demand in the petrochemical industry or due to supply chain disruptions, it can lead to higher production costs for sodium bisulfate. Similarly, fluctuations in the cost of energy, such as electricity and natural gas, used in the manufacturing process can also affect overall prices. Consequently, manufacturers may adjust their pricing strategies to maintain profitability, resulting in price changes for sodium bisulfate in the market.
Get Real Time Prices for Sodium Bisulfate: https://www.chemanalyst.com/Pricing-data/sodium-bisulfate-1279
Another significant factor influencing sodium bisulfate prices is the demand from various end-use industries. In the food industry, sodium bisulfate is used as a food preservative and antioxidant. As consumers increasingly prefer processed foods with longer shelf lives, the demand for sodium bisulfate has risen, consequently affecting its market price. Similarly, the growing emphasis on water treatment and sanitation in both developed and developing countries has spurred demand for sodium bisulfate. Municipalities and industries often use it for pH adjustment in water treatment processes, leading to increased consumption and potential price hikes. Moreover, industries like textile and paper manufacturing also utilize sodium bisulfate, further contributing to its demand dynamics.
Geopolitical factors can also play a role in the pricing of sodium bisulfate. Trade policies, tariffs, and regulations can impact the import and export of this chemical, affecting its availability in certain regions. For instance, if a major producing country imposes tariffs on sodium bisulfate exports, it could lead to reduced supply in the global market, subsequently driving up prices. Conversely, if new production facilities are established in a region with lower operational costs, it may lead to increased supply and reduced prices. Monitoring such geopolitical developments is essential for businesses involved in sodium bisulfate procurement.
Market trends and consumer preferences also significantly influence sodium bisulfate pricing. The shift toward environmentally friendly and sustainable products has led to increased scrutiny of chemical usage across various sectors. As a result, there is growing pressure on manufacturers to adopt greener production methods, which may incur higher costs. These costs may be passed on to consumers in the form of higher prices for sodium bisulfate. Furthermore, consumer awareness regarding product quality and safety can also lead to variations in pricing, as companies may invest in better production practices or certifications, impacting the overall market.
Seasonality can also affect sodium bisulfate prices. In certain regions, demand may peak during specific seasons, such as summer months when water treatment needs increase. This seasonal fluctuation can lead to temporary price increases as suppliers respond to the heightened demand. Conversely, during off-peak seasons, prices may stabilize or decrease as supply exceeds demand. Companies engaged in sodium bisulfate procurement must consider these seasonal trends when planning their purchases to avoid paying inflated prices during peak demand periods.
To gain a comprehensive understanding of sodium bisulfate prices, it is essential to analyze historical pricing data and industry reports. By examining past price trends, businesses can identify patterns that may help forecast future price movements. This analysis can also highlight the impact of external factors such as economic downturns or surges in raw material prices, enabling companies to develop effective procurement strategies. Furthermore, staying updated with industry news and market intelligence reports can provide valuable insights into potential price changes, allowing businesses to make informed purchasing decisions.
In conclusion, the pricing of sodium bisulfate is a complex interplay of various factors, including raw material costs, demand dynamics, geopolitical influences, and market trends. As industries continue to evolve and adapt to changing consumer preferences, understanding these influences becomes increasingly important for businesses relying on sodium bisulfate. By keeping a close eye on the market and utilizing historical pricing data, companies can navigate the challenges associated with price fluctuations and optimize their procurement strategies. In doing so, they can ensure the continued availability of sodium bisulfate for their operations while minimizing the impact of price volatility on their bottom line. With the growing demand for this versatile chemical across multiple sectors, staying informed and proactive will be key to success in managing sodium bisulfate procurement and pricing strategies in the future.
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#Sodium Bisulfate#Sodium Bisulfate Price#Sodium Bisulfate Prices#Sodium Bisulfate Pricing#Sodium Bisulfate News#Sodium Bisulfite Price Market#Sodium Bisulfate Database
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#Sodium Bisulphite#Sodium Bisulphite Manufacturers In India#Sodium Bisulfate Manufacturers & Suppliers in India
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What ! ? "Halloween Reaction"?
Happy Halloween all KingDraw lovers!!!
Let’s enjoy a Halloween-inspired chemical experiment:)
The Halloween reaction or Old Nassau reaction is known as a “Clock” reaction in which a clear solution turns orange and then black. This reaction was discovered by two undergraduate students at Princeton University researching the inhibition of the iodine clock reaction (or Landolt reaction) by Hg2+, resulting in the formation of orange HgI2. Orange and black are the school colors of Princeton University, and "Old Nassau" is a nickname for Princeton, named for its historic administration building, Nassau Hall.
Here I found a video from YouTube. Let's have a look!
youtube
The real ‘Halloween Reaction’
The Halloween clock reaction is a modification of the classic Landolt clock reaction. Three clear solutions of sodium bisulfate, mercury (ll) chloride, and potassium iodate are combined. The first two are mixed, then added simultaneously to the potassium iodate. Then, the orange-red comes out. A few seconds later, the mixture rapidly turns to black color, where a starch-iodine complex is formed.
The reactions involved are as follows:
Na2S2O5 + H2O → 2 NaHSO3
IO3− + 3 HSO3− → I− + 3 SO42− + 3 H+ This reaction reduces iodate ions to iodide ions.
Hg2+ + 2 I− → HgI2 Orange mercury iodide solid is precipitated until the mercury is used up.
IO3− + 5 I− + 6 H+ → 3 I2 + 3 H2O The excess I− and IO3− undergo the iodide-iodate reaction
I2 + starch → a blue/black complex A blue/black starch-iodine complex is formed.
Hazard index: High!!!
Do not try this experiment at home! Take care to operate since there’s soluble mercury (ll) chloride in high toxicity. If you don't go for full reduction, you can select food coloring as a replacement for mercury (ll) chloride, which can greatly improve the safety of the experiment. However, there’s no stage in the reaction where the color turns from colorless to orange.
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#halloween#scary videos#pumpkin#organicchmistry#chemistry#sciencememe#ghost art#reaction#october#Youtube
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What the hell is in HJ-7???
(or possibly as close as an amateur can get)(Re-Upload)
(pt 1, because figuring fictional science is actually hard)
I apologize, this was originally colour coded for easier reading but adding the ‘keep reading tab’ only exists on the laptop and it neutralizes the lovely colours. I had highlighted important elements, chemicals and sections of the chemical’s reaction.
Nonsense below:
Now we already know that this chemical concoction is practically a thing of magic. Now whatever the heck that salt Dr. Jekyll was using is surely important because it’s state of purity is what makes or breaks the man.
Salts, in chemistry, are electrically neutral ionic compounds of oppositely charged ions. What does that mean? Opposites do attract (or in this case ying and yang it out). That probs explains why the salt ingredient is so important (lmao, cause y'know hyde (-) and jekyll (+). Anyways, we aren’t on that rn. We are on chemistry not philosophy.
There are a bunch of ‘white’ salts (irl), and since Robert (author) himself doesn’t know how the 'potion’ worked, we can assume that it’s something of some fiction monstrosity of something that actually exists. Might just be table salt.
Sorry, just had to pause this to say that, in my curse of events:
EVEN IN FICTIONS SOMETHING EITHER HAPPENS BEFORE OR AFTER MY DAY OF BIRTH. IT’S A CURSE I AM TELLING YOU!
Anyways, back to the analysis (i will be saying this often because this is being typed with my train of thought).
The thing that all salts have in common, is as I forementioned, the opposite ions (+ and -) which cancel each other,making it neutral and that it occurs in a solid state. (bookmark this because we’ll be needing her later in the text).
There are also some powders and a phial- i don’t major in chemistry, what the hell is a phial?
Ah okay, so you have the audacity to make me feel dumb by using alt names but can’t name your chemicals, huh ROBERT??
wait, phial glass? Is that how it’s spelt? I always heard the term but-
Anyways,
HJ-7 consists of phosphorus at least, being mixed with other contents, causing it to be red and pungent (Please note that phosphorus can be naturally (or as natural as it can get through heating) red.
Also (if it is red phosphorus):
This shit is not made for human consumption, no wonder Jekyll felt like he was dying.
It typically doesn’t dissolve in most liquids. It does, however, combine with halogens…
But, when we go further in text to 'colour change’, then it likely isn’t red phosphorus.
Phosphorus, also comes in a purple form (known as scarlet/violet phosphorus) but that’s derived from white phosphorus dissolved in carbon disulfide (and low-key being evaporated by the sun), but here Hyde jumps straight from a red liquid to a violet one.
That could possibly mean white phosphorus was in the red liquid, and was possibly mixed with carbon disulfide (and something to simulate the radiation of solar energy) to turn it purple. (being generous and assuming that the mixture changed because of phosphorus being the main element and not something else).
Crystals, I’m guessing refers to the salt, brightened the red mixture and caused witchy bubbly (effervescence).
Me: Proceeds to low-key cry.
I should also mention that carbon disulfide (contaminated with impurites, which is basically whatever isn’t it) gives off a foul-odur, or how you say pungent.
Bubbly or effervescence, presented in the text, is usually due to a chemical reaction producing oxygen (as far as I know).
Okay, bringing back the salt tab. I think it may be Sodium Bisulfate, one, because it’s chemical formula contains oxygen (NaHSO4), two, it is white, three, it is formed by partial neutralization of sulfuric acid by a sodium base (yes table salt can be used), and four, it is a stable and dry granular (crystal) product, thereby fitting the description of the white salt Jekyll used.
Now, why did I highlight neutralization? Because it can go wrong. (If I’m right, purity means that it’s the chemical compound of the item alone with no other additives, so say if my sodium bisulfate somehow had remains of sodium chloride during the neutralization process, then it is deemed impure).
The oxygen within the formula could possibly be released when reacting with the red phosphorus mixture, causing the effervescence, because when phosphorus reacts with oxygen it literally catches fire.
Hey, bubbles!
OH FUCK
REMEMBER THE CHEMICAL CHANGE I SPOKE OF EARLIER THAT NEEDED RADIATION.
GUESS WHAT ALSO RADIATES HEAT!!!!
FIREEEEEEEEEEEEEEEEEEE
and being supposedly compressed in a small phial (because who needs lab safety), small, whatever consistency this thing is right now, slosh would heat up rather quickly. Dare I say, very hot.
Okay, turns out Dr. Jekyll likely used a Bunsen burner instead of relying on chemical reactions to explode heat the elements. Good to know, wish Lanyon mentioned that. Forget what I said about the fire.
Please note: Phosphorus glows this colour (green).
Another addition: How do we combine the Phosphorus, remember that I said it dissolves in?
That’s right, Halogens.
And you know what’s a halogen? Bromine.
WHAT COLOUR IS BROMINE?????
FUCKING
RED
(blood-red even)
But, now we have a problem.
I don’t entirely know how everything reacts with everything but I do know this: white phosphorus+bromine makes phosphorus bromide…
and that’s clear…as in clear in colour.
At least it fumes that fits a description.
I should also mention that Phosphorus reacts a bit…explosively…with it’s solvents and sadly, it does not fit the description of Jekyll’s calm and cool sliquid (solid-liquid) creation.
Unless, boil and smoke meant, sort of blew up lab, but I survived and it’s okay.
And also, it turns out that sodium bisulfate removes halogens…yeah, our phosphorus dissolvent.
DAMNIT, IT’S FALLING APART!
So close…why couldn’t the real life chemicals react similar to the fictional unnamed chemicals??
Sadly, i’m not a quitter.
Bruh
It explodes with everythinnnnggggg!!!!
Now I know how Dr. Jekyll felt…
Alright,
slight good news.
if Jekyll somehow is able to slowly add bromine to phosphorus bromide (which violently reacted before) in an environment of 0°C followed by a slow addition of water then it shouldn’t explode and becomes phosphoryl bromide.
This is pale orange and reacts with carbon disulfide, but we aren’t doing that yet.
Slapping more water on it’s liquid form turns it into Phosphoric acid and hydrobromic acid.
Now, you may be asking…
You just wasted my time, why didn’t you just start with Phosphoric acid???
Well to be fair…it hadn’t occured to me and-
“Phosphorus is an essential part of life. When combined with oxygen to make phosphates, it holds our DNA together, makes our bones strong and carries out fundamental chemical reactions within our cells” - The Guardian
So logically…I started with it.
Alright, so Phosphorus is therefore very important in doing it’s Hyde thing.
We have (white phosphorus + bromine; assuming, pre-made outside with proper fire safety) Phosphoric acid + carbon disulfide* + ???? (red liquid) + sodium bisulfate (our salt) + heat= ????.
*I’m taking out carbon disulfide because our Phosphorus is now Phosphoric acid and we don’t need it. It will also kill if they are combined.
-End of Day 1-
Status: Failed
(What do you guys think will work? I’ll wait a bit before starting Day 2 to hear your responses).
(I’m thinking Phosphoric acid and Potassium Hydroxide since it has both phosphorus and becomes a red liquid. We can also bring back carbon disulfide if we do).
#the strange case of dr. jekyll and mr. hyde#the strange case of dr jekyll and mr hyde#dr jekyll and mr hyde#HJ7#theory#HJ& analysis#science fiction#gothic literature#lil talks#lil texts
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Does anyone want to tell me why my like, 10 year old canister of toilet bowl cleaner literally exploded while I was cleaning the bathroom yesterday? I'm technically not a chemist and I'm only 60% sure the active ingredient was sodium bisulfate but I do know that its very strange it hadn't exploded in 10 years and suddenly like, 25 minutes after I picked it up to look at the label it exploded. Chemists explain
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