🧪In the chemical industry, efficient water treatment is essential for maintaining operational integrity, product quality, and environmental compliance. At Excel Water Ltd, we understand chemical manufacturers' unique challenges and offer advanced water treatment solutions to meet these demands. 🌊 Find out more by visiting 🔗www.excelwater.co.uk or call our experienced team on 0113 232 0005 #Excelwater #chemical #chemicalindustry #watertreatment
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Keeping drinking water clear from contamination is critical to maintaining healthy water supplies. However, some substances prove to be hard to treat and remove. 1,4-Dioxane, a compound commonly used by pharmaceutical companies and found in household products, is likely a carcinogen and challenging to remove. "The consequence of legacy and ongoing uses-plus [sic] the compound's tendency to appear as an impurity in consumer and commercial products-is [sic] that 1,4-dioxane is more widespread as a contaminant in drinking water than most other synthetic chemicals," cautions Thomas K.G Mohr, author of a technical book investigating and remediating pollution from 1,4-dioxane. Adding to the difficulty, 1,4-dioxane dissolves quickly in water. While its prevalence is a health risk, it also presents an opportunity for innovators and solution providers to develop and bring to market the needed transformative technology to treat the substance. Cheryl Hogue dissects the use of the compound, its pervasiveness in groundwater and surface water, and the regulatory challenges in setting limitations via Chemical & Engineering News here:
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When chemicals are not compatible with the materials they encounter, it can cause a range of chemical reactions that may result in increased costs. Sponsored by: Blue-White Industries See more > https://loom.ly/T2PGgFA #watertreatment #treatmentplant #wastewater #BlueWhiteIndustries #tpomagazine #cleanwater #water #treatmentplantoperator
Ensuring Chemical Compatibility in Water Treatment Equipment | Treatment Plant Operator
tpomag.com
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Everyone has an 'introductory email'. This is mine, what do you think? Good morning (put your name here). My name is Brian Jones and I have reached out to you. In my role with Veolia we have saved customers considerable costs in waste water treatment, by changing over from traditional DAF chemistry using PAC and caustic to our organic coagulant called Hydrex 6861. Typically we can provide savings from £65k to £100k per year by moving to our organic coagulant. Cost savings are realised due to :- Sludge reduced by 50% from DAF units. Increased capacity for DAF units due to reduced sludge volumes. Reduced dose rates by typically 50%. No caustic soda required. Low hazard so safer to handle. We manufacture and transport the product so supply is reliable and cost effective. The original chemistry was PAC and caustic soda. Please use the link to reach our Veolia web page to see a very interesting video on how we can improve the process by sludge reduction and reduction in caustic usage. https://lnkd.in/exJcT6ks With savings due to reduced chemical usage and reduced sludge disposal costs. We can carry out jar tests at your site and then predict the savings to be made. If you have an effluent treatment process, I would appreciate the opportunity to visit it to provide a free audit with jar testing too. This will allow us to give indications of cost savings. The process of changeover is methodical starting with a site visit to qualify savings, then a proposal is submitted and finally a full scale trial. During the full scale trial we would support and advise on the chemistry to ensure the risks are managed so we are all happy with the results and there is no risk of breaching consent. I would be very grateful if you or one of your colleagues could come back to me to confirm receipt of this message and agree some simple next steps. -- Kind regards, Brian.
Hydrex 6861 Organic Coagulant | Veolia Water Technologies UK
campaign.veoliawatertechnologies.co.uk
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Conducting a #laboratory #water-analysis is not just a best practice but a crucial step to avoid potential risks before treating or applying chemicals to water. This analysis provides vital information about the water's composition, identifying #contaminants, #mineral content, #pH levels, and other parameters affecting treatment effectiveness or chemical reactions. By understanding these factors through rigorous testing and analysis, professionals can tailor treatment processes more accurately, ensuring optimal results and preventing potential issues such as ineffective treatment or unintended chemical reactions. Therefore, a thorough lab water analysis is a foundational step in any water treatment or chemical application process, guiding decisions and ensuring the efficiency and safety of treatments applied to #water-systems. Neglecting this step can lead to serious consequences, underlining the importance of this analysis. #watertreatment #watertreatmentkenya #boreholetreatment #boreholewater #wateranalysis #Kenya #cleanwater #WASH
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A Complete Guide of "𝐈𝐧𝐝𝐮𝐬𝐭𝐫𝐢𝐚𝐥 𝐖𝐚𝐬𝐭𝐞𝐰𝐚𝐭𝐞𝐫 𝐓𝐫𝐞𝐚𝐭𝐦𝐞𝐧𝐭" [ PDF Guide ] ➡𝐂𝐥𝐢𝐜𝐤 𝐡𝐞𝐫𝐞 𝐟𝐨𝐫 𝐏𝐃𝐅>> https://lnkd.in/dpE7aHQu The growth of the global industrial wastewater treatment market is driven by factors such as lack of freshwater resources, #government encouragement and the growing emphasis on corporate social responsibility, and the need for critical resource recovery from wastewater. However, the high installation, maintenance, and operating costs of wastewater treatment infrastructure may restrain the growth of this market. Water and energy have always been crucial for social and economic growth; their supply and use must be sustainable. Water provision and use require energy in all phases. Water gets treated to drinking water through various processes, including filtration, sedimentation, and disinfection, which require energy. 𝐄𝐧𝐝 𝐔𝐬𝐞𝐫 ➢ Food & Beverage ➢Power Generation ➢Pharmaceutical Manufacturing ➢Pulp & Paper ➢Chemical Manufacturing ➢#Oil & #Gas ➢Refining & #Petrochemicals ➢Industrial Manufacturing (#Automotive, #Heavy, and Metal Industries) ➢Semiconductor Manufacturing #foodandbeverage #powergenartion #treatmenttechnologies #treatmentchemicals #automation #construction #wastewater #semiconductormanufacturing #pharmaceuticalmanufacturing #research
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Do you manage the storage and distribution of chemicals? Ensuring the safety of your community, employees, and environment is a top priority. But have you considered all the potential risks and planned for a response to a chemical incident? The FEMA document "Key Planning Factors and Considerations for Response to and Recovery from a Chemical Incident" offers valuable guidance for planning and preparing for chemical incidents. It covers strategic and operational considerations for response and recovery planning, making it a valuable resource for government departments, NGOs, and private sector stakeholders. Lots of case studies to support planning, including exercise scenarios: - Industrial, Agricultural Industry - Industrial, Chemical Supply Industry - Transportation - Deliberate https://lnkd.in/e2aBPiDm
fema.gov
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Why is it important to use water treatment chemicals in production? Watch our video and discover the details. #bimakskimya #watertreatment #bimaks #chemicals #bimakschemical #tailormadeproduct #tailormadesolution #pipechemical #pipemaintance #watertreatmentchemicals #production #safewater
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Helping an F&B plant to optimise their wastewater treatment process and improving the performance of the plant and achieving best outcome, by applying Nalco chemistry. Good separation of the solids will bring a big opportunity of money savings and complying with the regulatory guidelines. #chemicalengineering #wastewatertreatment #coagulation #flocculation
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Senior Business, Sales & Technical Specialist for Industrial Chemical Solutions - Water Treatment | CIP & COP | Lubrication | Adhesives
Monitoring water quality in industrial water treatment processes is crucial to ensure compliance with regulatory standards and maintain the efficiency of utility systems (such as boilers, chillers, pasteurizers, evaporative condensers and cooling towers). Here are some key steps and parameters to consider for an effective water quality monitoring program: 1. Parameter Selection: Identify the relevant parameters based on the specific characteristics of the industrial process and the regulatory requirements. Common parameters include pH, langelier saturation index (LSI), turbidity, dissolved oxygen (DO), chemical oxygen demand (COD), biochemical oxygen demand (BOD), total suspended solids (TSS), total dissolved solids (TDS), sulfites, nitrites, phosphates, heavy metals, and various organic and inorganic contaminants. 2. Sampling Plan: Develop a sampling plan to collect representative water samples at different stages of the treatment process. Consider factors such as sampling frequency, sample location, and sample preservation techniques to ensure accurate analysis. 3. Analytical Methods: Choose appropriate analytical methods for each parameter based on sensitivity, accuracy, and ease of use. This may involve laboratory analysis, on-site testing with portable instruments, or a combination of both. 4. Calibration and Quality Control: Regularly calibrate monitoring instruments and implement quality control procedures to ensure the reliability of data. This includes using certified reference materials, conducting blank and spike tests, and following standardized protocols. 5. Data Management: Establish a system for recording, storing, and analyzing monitoring data. This may involve using electronic databases, spreadsheets, or specialized software for water quality management. 6. Real-time Monitoring: Implement real-time monitoring systems where feasible to continuously track key parameters and detect any deviations from desired levels. This allows for prompt corrective actions and reduces the risk of process upsets or non-compliance. 7. Risk Assessment and Mitigation: Conduct periodic risk assessments to identify potential sources of contamination or process failures. Develop mitigation strategies to address these risks and prevent adverse impacts on water quality. 8. Regulatory Compliance: Stay informed about relevant regulations and ensure that monitoring practices align with legal requirements. Maintain documentation of monitoring activities and be prepared to report data to regulatory agencies as needed. By following these steps and regularly reviewing and updating monitoring practices, industrial facilities can effectively manage water quality and demonstrate commitment to environmental stewardship and regulatory compliance. #water #waterqualitymonitoring #watertreatmentprogram #wastewatertreatment #environmentalregulations #waterqualityaudit
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Let’s take a look at the pros and cons of using Boiler Water Treatment Chemicals! #bimakskimya #watertreatment #bimaks #chemicals #bimakschemical #tailormadeproduct #tailormadesolution #pipechemical #pipemaintance #watertreatmentchemicals #boilerwatertreatment #boiledwater
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