{
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    "user_comment": "This feed allows you to read the posts from this site in any feed reader that supports the JSON Feed format. To add this feed to your reader, copy the following URL -- https://lets-talk-bromine.bsef.com/tag/flowcamp/feed/json/ -- and add it your reader.",
    "home_page_url": "https://lets-talk-bromine.bsef.com/tag/flowcamp/",
    "feed_url": "https://lets-talk-bromine.bsef.com/tag/flowcamp/feed/json/",
    "title": "Let&#039;s talk bromine",
    "description": "A conversation starter in the fast-moving bromine field",
    "items": [
        {
            "id": "https://lets-talk-bromine.bsef.com/2019/03/05/meet-experts-phd-students-develop-next-generation-bromine-based-flow-batteries/",
            "url": "https://lets-talk-bromine.bsef.com/2019/03/05/meet-experts-phd-students-develop-next-generation-bromine-based-flow-batteries/",
            "title": "Meet the Experts \u2013 PhD students develop the next generation of bromine-based flow batteries",
            "content_html": "<p>Have you read our <a href=\"https://lets-talk-bromine.bsef.com/2018/10/17/electricity-storage/\">previous Meet the Experts-article</a> where we talked with Wiebrand Kout, Ing. and CTO of <a href=\"https://www.elestor.nl/\">Elestor</a>? We took a closer look at the energy storage sector and how PhD students and programmes such as <a href=\"https://www.flowcamp-project.eu/\">FlowCamp</a> help to <strong>develop and improve energy storage applications and materials</strong>, more specifically <a href=\"http://www.bsef.com/energy-storage/\">bromine-based redox flow batteries</a> (RFBs).</p>\n<p>FlowCamp\u2019s <strong>training project</strong> offers students and researchers the unique chance to learn more about <a href=\"https://lets-talk-bromine.bsef.com/2017/09/07/bromine-as-energy-storage-enabler/\">these technologies</a>, improve materials that will be used in the next-generation redox-flow batteries and also make their own contributions.</p>\n<p>For example, Sanaz Abassi works in Elestor\u2019s labs as part of FlowCamp\u2019s training network. She <strong>studies and improves the membrane that is used in the flow batteries</strong>.</p>\n<p>\u201cI am working on the membrane development for the hydrogen bromine system. The membrane in the system should be resistant to bromine and should also be conductive. And there is always a trade-off between these 2 properties of the membrane in hydrogen bromine flow batteries\u201d, she says.</p>\n<p><iframe src=\"https://www.youtube.com/embed/9dQ5YkznZNY\" width=\"560\" height=\"315\" frameborder=\"0\" allowfullscreen=\"allowfullscreen\"></iframe></p>\n<h3><strong style=\"color: #007d8a;\"><strong><b><span lang=\"EN-US\">What is FlowCamp?</span></b></strong></strong></h3>\n<p>FlowCamp is a training &amp; research network consisting of <strong>11 partners from 8 different countries</strong>, coordinated by Fraunhofer ICT in Germany and funded by the <a href=\"https://ec.europa.eu/programmes/horizon2020/en/h2020-section/marie-sklodowska-curie-actions\">European Union\u2019s Marie-Sklodowska-Curie programme</a>.</p>\n<p>The funding will be allocated to a group of 15 postgraduates that will get the chance to <strong>practically apply their battery technology knowledge and expertise</strong> for a period of 3 years.</p>\n<h3><strong style=\"color: #007d8a;\"><strong><b><span lang=\"EN-US\">Training of the PhD students</span></b></strong></strong></h3>\n<p>All 15 participants are both <strong>European and non-European</strong> and will be able to conduct research and carry out project activities in a European country other than their native country.</p>\n<p>Furthermore, the researchers will be <strong>individually trained in electrochemistry, material science, cell design/engineering</strong> and will also be able to actively take part in the process of battery development.</p>\n<p>PhD student Sanaz Abbasi says that \u201cit is fascinating\u201d to study membranes for hydrogen bromine flow batteries and she is convinced that \u201cby using hydrogen bromine flow batteries we can store a huge amount of energy from renewable sources at a much lower cost, which can result in, finally, having a cleaner world.\u201d</p>\n<p><img class=\"alignnone wp-image-17141\" src=\"https://lets-talk-bromine.bsef.com/wp-content/uploads/2019/03/BSEF_Newsletter_Q1_2019_PHDhand.png\" alt=\"\" width=\"650\" height=\"424\" srcset=\"https://lets-talk-bromine.bsef.com/wp-content/uploads/2019/03/BSEF_Newsletter_Q1_2019_PHDhand.png 1300w, https://lets-talk-bromine.bsef.com/wp-content/uploads/2019/03/BSEF_Newsletter_Q1_2019_PHDhand-300x196.png 300w, https://lets-talk-bromine.bsef.com/wp-content/uploads/2019/03/BSEF_Newsletter_Q1_2019_PHDhand-768x501.png 768w, https://lets-talk-bromine.bsef.com/wp-content/uploads/2019/03/BSEF_Newsletter_Q1_2019_PHDhand-1024x668.png 1024w, https://lets-talk-bromine.bsef.com/wp-content/uploads/2019/03/BSEF_Newsletter_Q1_2019_PHDhand-400x260.png 400w, https://lets-talk-bromine.bsef.com/wp-content/uploads/2019/03/BSEF_Newsletter_Q1_2019_PHDhand-700x457.png 700w\" sizes=\"(max-width: 650px) 100vw, 650px\" /></p>\n<h3><strong style=\"color: #007d8a;\"><strong><b><span lang=\"EN-US\">What is the goal of the program?</span></b></strong></strong></h3>\n<p>FlowCamp\u2019s main goal is to <strong>further develop and improve materials</strong> (membranes, electrodes, electrolytes, catalysts, sealing materials) a<strong>nd models for 3 types of new generation high-performance, low-cost redox-flow batteries</strong> (hydrogen-bromine, aqueous organic, zinc-air systems), which are currently regarded as one of the most promising energy storage solutions.</p>\n<p>BSEF actively supports and encourages the fact that students and professionals receive the chance to conduct research on new bromine-related technologies.</p>\n<p>Visit our <a href=\"http://www.bsef.com/\">website</a> if you would like to know more about <a href=\"http://www.bsef.com/bromine-applications/\">bromine and its applications</a>.</p>\n<p><strong>SOURCES</strong><br />\n<a href=\"https://www.flowcamp-project.eu/\">https://www.flowcamp-project.eu/\u00a0</a><br />\n<a href=\"http://www.elestor.nl/\">http://www.elestor.nl/</a><br />\n<a href=\"http://bsef.com/\">http://bsef.com/</a><br />\n<a href=\"http://bsef.com/wp-content/uploads/2018/05/BSEF-ENERGY-STORAGE.pdf\">http://bsef.com/wp-content/uploads/2018/05/BSEF-ENERGY-STORAGE.pdf</a><br />\n<a href=\"https://lets-talk-bromine.bsef.com/2017/12/07/bromine-flow-batteries-energy-storage/\">https://lets-talk-bromine.bsef.com/2017/12/07/bromine-flow-batteries-energy-storage/</a></p>\n<p>The post <a rel=\"nofollow\" href=\"https://lets-talk-bromine.bsef.com/2019/03/05/meet-experts-phd-students-develop-next-generation-bromine-based-flow-batteries/\">Meet the Experts &#8211; PhD students develop the next generation of bromine-based flow batteries</a> appeared first on <a rel=\"nofollow\" href=\"https://lets-talk-bromine.bsef.com\">Let&#039;s talk bromine</a>.</p>\n",
            "content_text": "Have you read our previous Meet the Experts-article where we talked with Wiebrand Kout, Ing. and CTO of Elestor? We took a closer look at the energy storage sector and how PhD students and programmes such as FlowCamp help to develop and improve energy storage applications and materials, more specifically bromine-based redox flow batteries (RFBs).\nFlowCamp\u2019s training project offers students and researchers the unique chance to learn more about these technologies, improve materials that will be used in the next-generation redox-flow batteries and also make their own contributions.\nFor example, Sanaz Abassi works in Elestor\u2019s labs as part of FlowCamp\u2019s training network. She studies and improves the membrane that is used in the flow batteries.\n\u201cI am working on the membrane development for the hydrogen bromine system. The membrane in the system should be resistant to bromine and should also be conductive. And there is always a trade-off between these 2 properties of the membrane in hydrogen bromine flow batteries\u201d, she says.\n\nWhat is FlowCamp?\nFlowCamp is a training &amp; research network consisting of 11 partners from 8 different countries, coordinated by Fraunhofer ICT in Germany and funded by the European Union\u2019s Marie-Sklodowska-Curie programme.\nThe funding will be allocated to a group of 15 postgraduates that will get the chance to practically apply their battery technology knowledge and expertise for a period of 3 years.\nTraining of the PhD students\nAll 15 participants are both European and non-European and will be able to conduct research and carry out project activities in a European country other than their native country.\nFurthermore, the researchers will be individually trained in electrochemistry, material science, cell design/engineering and will also be able to actively take part in the process of battery development.\nPhD student Sanaz Abbasi says that \u201cit is fascinating\u201d to study membranes for hydrogen bromine flow batteries and she is convinced that \u201cby using hydrogen bromine flow batteries we can store a huge amount of energy from renewable sources at a much lower cost, which can result in, finally, having a cleaner world.\u201d\n\nWhat is the goal of the program?\nFlowCamp\u2019s main goal is to further develop and improve materials (membranes, electrodes, electrolytes, catalysts, sealing materials) and models for 3 types of new generation high-performance, low-cost redox-flow batteries (hydrogen-bromine, aqueous organic, zinc-air systems), which are currently regarded as one of the most promising energy storage solutions.\nBSEF actively supports and encourages the fact that students and professionals receive the chance to conduct research on new bromine-related technologies.\nVisit our website if you would like to know more about bromine and its applications.\nSOURCES\nhttps://www.flowcamp-project.eu/\u00a0\nhttp://www.elestor.nl/\nhttp://bsef.com/\nhttp://bsef.com/wp-content/uploads/2018/05/BSEF-ENERGY-STORAGE.pdf\nhttps://lets-talk-bromine.bsef.com/2017/12/07/bromine-flow-batteries-energy-storage/\nThe post Meet the Experts &#8211; PhD students develop the next generation of bromine-based flow batteries appeared first on Let&#039;s talk bromine.",
            "date_published": "2019-03-05T14:49:05+00:00",
            "date_modified": "2019-06-04T06:52:30+00:00",
            "author": {
                "name": "admin",
                "url": "https://lets-talk-bromine.bsef.com/author/admin/",
                "avatar": "https://secure.gravatar.com/avatar/0428b8e4964fa7634cc8733194ee5bbe?s=512&d=mm&r=g"
            },
            "image": "https://lets-talk-bromine.bsef.com/wp-content/uploads/2019/06/BSEF_newsletter_PhD.png",
            "tags": [
                "bromine",
                "bromine-based technology",
                "bsef",
                "climate",
                "Energy storage",
                "flow batteries",
                "FlowCamp",
                "hydrogen bromine",
                "Marie Sk\u0142odowska-Curie",
                "renewable energy"
            ]
        }
    ]
}