scholarly journals BECCO now makes available the first practical low-cost in situ Expoxidation process using ion-exchange resins

1955 ◽  
Vol 33 (51) ◽  
pp. 5556
Keyword(s):  
Ion Exchange ◽  
Low Cost ◽  
Ion Exchange Resins ◽  
Exchange Resins

Development of Low-Cost Arsenic Removal Process by Using Ion-Exchange Resins

2021 ◽  
pp. 139-147
Author(s):  
Priyabrata Mondal ◽  
Pankaj Kumar Roy ◽  
Nil Sadhan Mondal ◽  
Saurabh Kumar Basak ◽  
Arunabha Majumder
Keyword(s):  
Ion Exchange ◽  
Arsenic Removal ◽  
Low Cost ◽  
Ion Exchange Resins ◽  
Removal Process ◽  
Exchange Resins

scholarly journals Arsenic Mitigation Technologies from Ground Water: A Brief Review

2020 ◽  
pp. 139-158
Keyword(s):  
Drinking Water ◽  
Ion Exchange ◽  
Low Cost ◽  
Cost Effective ◽  
Water Source ◽  
Ion Exchange Resins ◽  
Activated Alumina ◽  
The World ◽  
Exchange Resins ◽  
High Arsenic

Contamination of drinking water due to the presence of as has become a global environmental and socio-economic threat. The appearance of high Arsenic (As) in drinking water causes a serious health issue around the world. Many countries in different parts of the world have reported high arsenic concentrations. Among all groundwater arsenic contamination affected countries, the position of Bangladesh is the worst. Therefore, it is very important to develop affordable and efficient techniques to remove As from drinking water to protect human health. The most used methods are oxidation, coagulation, adsorption, ion exchange, and membrane technologies. Oxidation is usually used as pretreatment for most of the methods. Coagulation is the most common arsenic mitigation technology in Bangladesh. This technique is effective from pH 6-8. Ion exchange resins can only remove arsenate. Activated alumina beds work best in slightly acidic waters and usually have much longer run times than ion exchange resins. A cost-effective method for mitigation of As from drinking water is the use of low-cost adsorbent. Membrane methods which are more costly than other arsenic mitigation techniques but very effective where very low arsenic levels are required. Providing a safe water source may not possible in some of the arsenic affected regions or sometimes this process becomes very expensive. Mitigation of As from drinking water may be more appropriate in these situations. This paper presents a review of the conventional methods used for mitigation of As from contaminated drinking water.

Activity-tunable nanocomposites based on dissolution and in situ recrystallization of nanoparticles on ion exchange resins

RSC Advances ◽  
2015 ◽  
Vol 5 (109) ◽  
pp. 89971-89975 ◽  
Author(s):  
Amanda Alonso ◽  
Núria Vigués ◽  
Rosalía Rodríguez-Rodríguez ◽  
Xavier Borrisé ◽  
María Muñoz ◽  
...  
Keyword(s):  
Ion Exchange ◽  
Ion Exchange Resins ◽  
Exchange Resins

This work proposes the use of cationic ion exchange resins as a platform for in situ formation and recrystallization of nanoparticles as a way to dynamically modulate their activity by changing their structure/composition.

Embedding Procedure for Water Swollen Samples

1970 ◽  
Vol 28 ◽  
pp. 504-505
Author(s):  
Ann M. Thomas ◽  
Virginia Shemeley
Keyword(s):  
Electron Microscopy ◽  
Transmission Electron Microscopy ◽  
Ion Exchange ◽  
Structural Changes ◽  
Cross Linking ◽  
Ion Exchange Resins ◽  
Transmission Electron ◽  
First Pass ◽  
Exchange Resins

Those samples which swell rapidly when exposed to water are, at best, difficult to section for transmission electron microscopy. Some materials literally burst out of the embedding block with the first pass by the knife, and even the most rapid cutting cycle produces sections of limited value. Many ion exchange resins swell in water; some undergo irreversible structural changes when dried. We developed our embedding procedure to handle this type of sample, but it should be applicable to many materials that present similar sectioning difficulties.The purpose of our embedding procedure is to build up a cross-linking network throughout the sample, while it is in a water swollen state. Our procedure was suggested to us by the work of Rosenberg, where he mentioned the formation of a tridimensional structure by the polymerization of the GMA biproduct, triglycol dimethacrylate.

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