Otherwise, you might lose sight of your goal.Television personality Geraldo Rivera, who dined with the president and his two oldest sons, Donald Trump Jr. But, even with respect to the climate crisis, you have to be realistic and consider the local context. There, it is potentially a useful solution. "But, during my Ph.D., I worked alongside Victor Sagel and Jimmy Faria on similar research in Curaçao, where there is a lot more wind. In the end, Haaksbergen was not the ideal environment for a complete conversion to renewable ammonia. Within continents, for example, it may be more beneficial to use the existing gas network to produce hydrogen." His thesis demonstrated this too. "You must focus on the added value for both mankind and nature. Nevertheless, he hesitates to say that ammonia is a genuine holy grail. It then immediately becomes a trump card within the energy transition. If this succeeds, Rouwenhorst believes-on the basis of a "scrap of paper" calculation-that global CO 2 emissions could be reduced by 5% simply as a result of the broader usage of ammonia. And this must involve the lowest possible levels of CO 2. According to a recent report that Rouwenhorst wrote, we could need four times as much by 2050. This would mean that the world would need far more ammonia. Moreover, the shipping industry views ammonia as the primary option for cleaner fuel." Ammonia can therefore function as a carrier of hydrogen. Also, if you have hydrogen, you can make ammonia and vice versa. According to the International Renewable Energy Agency, ammonia is the cheapest option for transporting hydrogen across continents. "At the moment, factories on a gigawatt scale are being built to run on renewable ammonia at numerous locations around the world. "But the focus diminished and more recently only a handful of scientists have maintained their faith in the concept." But the tide has turned in the past few years. Rouwenhorst adds that there has been technology for producing renewable ammonia on an industrial scale since 1920. I am energized by the combination of doing something that is useful and also realistic."Īnd that is precisely what has been going on over the past few years.
"It helps to view developments from various perspectives. candidate he is also working for the Ammonia Energy Association and is an Innovation Engineer for the company Proton Ventures. And also how people will respond to this type of development." That is why Rouwenhorst is not only a Ph.D. "I'm fascinated by the translation from fundamental science to the scale of enormous chemical factories. Or, rather, it is the combination that really appeals to him.
But Rouwenhorst has found developments outside these walls to be far more interesting. These experiments on a small scale, in the laboratory, are one thing. But the plasma process did seem to be useful for other applications, such as the production of nitric acid, which is also used in the manufacturing of artificial fertilizer." "In practice, the process was not the best option for converting nitrogen to ammonia. Plasma helps to realize the same process at temperatures of between 200 and 300 degrees Celsius."īut, as is so often the case in science, the route to the final destination is anything but straightforward. But the connections are so strong that you need industrial temperatures of between 400 and 500 degrees Celsius. "To this end, you need a catalytic agent. This nitrogen has to be broken up during the process in order to create ammonia," explains Rouwenhorst. "Around 80% of our air is made up of nitrogen. Over the past four years, he has specifically focused on plasma-enhanced catalytic ammonia synthesis under the supervision of Leon Lefferts. position with the S&T research group Catalytic Processes and Materials.
The thesis gave him an appetite for more. Would the village in Twente be able to abandon fossil fuels and only use energy generated by wind turbines, solar panels and sustainably produced ammonia? Rouwenhorst, under the supervision of Louis van der Ham, wanted to investigate this concept during his final research project in the town where he was born, Haaksbergen. Ammonia-NH 3-as a compound of hydrogen and nitrogen, is an ideal carrier of energy, particularly hydrogen.
0 kommentar(er)
