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Russian scientists create environmentally friendly fuel from wheat bran

علماء روس يبتكرون وقودا صديقا للبيئة من نخالة القمح

Sputnik

Researchers from Tomsk Polytechnic University (TPU), in cooperation with other Russian scientists, have created and tested a fusion component of a unique hybrid reactor. They claim the system will combine the advantages of reactors of various types and will excel in safety, economy and compactness.

The hybrid reactor systems or fusion-fission systems, as TPU scientists explained, will combine the reliability of conventional fission reactors with the economics and environmental safety of fusion power.

These systems consist of a fusion neutron source and a core (called a blanket) in which heavy nuclei fission takes place. The fuel is a hybrid of thorium and weapons-grade plutonium. The scientists claim that thorium is not an energy source in itself but it does produce uranium-233, and that the accumulation of this in the core increases the duration of the fuel cycle. Replacing the uranium-238 used in conventional fission reactors with thorium could drastically reduce the amount of radioactive waste.

Contrary to fission reactors that are controlled using neutron absorbers, the state of the fuel in the blanket hybrid system is regulated by adding neutrons from a fusion source. The TPU scientists’ project uses a gas dynamic magnetic trap that holds deuterium and tritium in a state of high-temperature plasma.

“In plasma, deuterium and tritium ions collide with each other and combine to form helium nuclei, releasing high-energy neutrons. The latter are fed from the vacuum chamber into the blanket in pulsed mode, supporting the fission of heavy nuclei, which generates the main energy. The key difference of the hybrid system is that the nuclear material is not in a strictly critical state, as in a traditional reactor, but in a close-to-critical state, which eliminates the possibility of an uncontrolled chain reaction,” Sergey Bedenko, Associate Professor of the TPU Division for Nuclear-Fuel Cycle, explained.

According to the scientists, the fission-produced energy is dissipated by the helium heat exchanger. The helium, when heated to around 730°C when the gas turbine and power generator are connected, can be used to produce not only electricity but also hydrogen, using the steam conversion of methane.

The hybrid reactor under development will be compact, have a capacity of about 60-100 MW, and the ability to operate without reloading fuel for more than eight years. According to the scientists, this will allow its use in hard-to-reach regions to produce electricity, heat and environmentally friendly hydrogen fuel.

The gas dynamic magnetic trap used by the scientists allows the high-temperature plasma to be retained for much longer than other existing systems, they said. This will help scientists better study both the fusion process taking place in it and the performance of various reactor elements under harsh neutron irradiation, which scientists believe should significantly accelerate the development of fusion energy.

“The research we conducted determined the optimum parameters of the fusion neutron source to maintain the blanket of the hybrid system in a controlled close-to-critical state at all times, and we also studied the ‘nuclear fission wave’ effect that occurs after a single pulse of fusion flux,” Sergey Bedenko said.
The concept of a thorium fuel core of a hybrid reactor was proposed in 2019 by a team of scientists from Tomsk Polytechnic University, Federal State Unitary Enterprise “Russian Federal Nuclear Centre – Zababakhin All-Russia Research Institute of Technical Physics” and the Budker Institute of Nuclear Physics of the Siberian Branch of the Russian Academy of Sciences. The research is carried out under the Russian Foundation for Basic Research grant No. 19-29-02005.

The research findings were published in Nuclear Engineering and Technology, an academic journal.

قنا

موسكو: اكتشف علماء في جامعة /تومسك/ الروسية للفنون التطبيقية أن نخالة القمح مع إضافات يمكن استخدامها كوقود صديق للبيئة.

ووفقاً لمجلة /ساينس دايريكت/ فإن هذه الطريقة “تساعد في تقليل انبعاثات غازات الاحتباس الحراري وتقليل مدافن النفايات وتبسيط إنشاء الخلائط من أجل الاستخدام الفعال للطاقة للكتلة الحيوية”.

وقالت السيدة كانيبا إيبرايفا مهندسة المركز العلمي والتربوي /بوتاكوفا/ إنه “تم إجراء تجارب إضافة كربونات الكالسيوم إلى النخالة ونتيجة لذلك كانت بقايا الرماد على شكل مسحوق، وهذا يشير إلى أنه عندما يتم حرق هذا الخليط سيتم تنظيف أسطح التسخين دون صعوبة كبيرة”.

وعمل العديد من العلماء في السنوات الأخيرة على تطوير وقود الكتلة الحيوية وهذا دفع المتخصصين من جامعة /تومسك/ إلى اختبار نخالة إحدى شركات طحن الدقيق في روسيا، وتبين أن أحد المنتجات الثانوية لإنتاج طحن الدقيق ينتمي إلى أنواع وقود منخفضة الذوبان وأن الجزء المعدني من نخالة القمح يتكلس عند درجات حرارة أعلى من 675 درجة مئوية.

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