KRATON ALDEGIDDAN OLINADIGAN BUTANOLNING KATALITIK SINTEZI
Keywords:
kraton aldegid, katalitik sintezi, gidrogenlash yo‘li, katalizatorlarAbstract
Sanoatning ishlab chiqarish kontekstida butanolning katalitik sintezi, fizik –kimyoviy xosaalari ularning xomoshyo sifatida ishlatilishi uchun muhimligi sababli katta qiziqish uyg’otadi.Butanol nitrolaklar, etilsellyuloza, smolalar murakkab efirlar (dibutilftalat, butilksantat) ishlab chiqarishda vosita sifatida faoliyat ko‘rsatishdan tashqari, ular plastifikat ichki yonuv dvigatellarida yonilg‘i sifatida ishlatilishi mumkin. Ilmiy va sanoat miqyosida keng qo‘llanilish potensialiga ega bo‘lib,tabiiy mahsulotlar kimyosi, yangi materiallar va ekologik toza texnologiyalarni rivojlantirishda foydali ekanligi aniqlangan. Garchi kraton aldegiddan hosil qilinadigan butanol ekologik jihatdan qulay va qayta ishlanadigan materiallar sifatida tanilgan bo‘lsa-da, hosil bo‘lgan chiqindilarning xavfsiz utilizatsiya bo‘yicha ushbu tadqiqoning asosiy muommosi bo‘lib qolmoqda. Ushbu qisqacha tadqiqot klinik sharoitda kelajakda foydalanish uchun kraton aldegid hosilalarini faolligini o‘rganadi. Ushbu sharhda, butanolning kelib chiqishi va xususiyatlarining portretini chizganimizdan so‘ng,biz butanolning katalitik sintezini asosiy xossalarini taqdim etdik. Bu jarayon iqtisodiy tarafdan ham foydali bo‘lishini amalda tekshirdik. Natijalar shuni ko‘rsatadiki, butanolning katalitik sintezi orqali cho‘kindilarni qayta ishlash qobilyati yaxshilangan Bizning natijalarimiz ekologik tomonidan samarali va energiya tejamkor hisoblanadi. Ushbu tadqiqotimiz kraton aldegididan toza butanol olishini ahamiyatini izohlaydi.
References
1. Cennamo1, N., S. D., & A. V. (2015). Easy to Use Plastic Optical Fiber- Based. Plos one, 1-12.
2. Chin, Z. Y.-H. Catalytic pathways and mechanistic consequences of water during vapor phase hydrogenation of butanal on Ru/SiO2. Journal of Catalysis, (2021). 429-443.
3. Ciprian-Gabriel Chisega-Negrilă, A. D. On the ultrasound-assisted preparation of Cu/SiO2 system as a selective catalyst for the conversion of biobutanol to butanal. chemical paper, (2021),1443–1455.
4. Hanna, D. G., Shylesh, S., & Parada, P. A. Hydrogenation of butanal over silica-supported Shvo‘s catalyst and its use for the gas-phase conversion of propene to butanol via tandem hydroformylation and hydrogenation. Jurnal of catalysis, (2014).51-52
5. Lee, L. J., Kim, C. Y., Kim, S. W., Kim, P. I., & Min, S. R. Plant Growth Promotion by Two Volatile Organic Compounds Emitted From the Fungus Cladosporium halotolerans NGPF1. Original Research, (2021). 1-6.
6. Asha Sharma;, Aamir Ahmed ; Anoop Singh; Recent Advances in Electrochemical Biosensors: Applications, Biosensors (2021), 1-31
7. Nurilloyev Z.I., Haydarov A.A., G’anijonov J.G’. Ikkilamchi Mahsulotlar Kroton Aldegid, Karbamid Va Ortofosfat Kislota Asosida Samarali Oligomer Korroziya Ingibitorining (Ikf-1) Olinishi va Xossalari, Oriental Renaissance: Innovative, Educational, Natural And Social Sciences Scientific Journal Impact Factor, (2021),1-9
8. Mаlikа Omonovа, Аldegid vа Ketonlаr, Образование Наука И Инновационные Идеи В Мире, (2022),1-10
