Sustainability of Biomass through Bio-based Chemistry
暫譯: 生物基化學在生物質可持續性中的應用
Popa, Valentin I.
- 出版商: CRC
- 出版日期: 2021-03-22
- 售價: $7,710
- 貴賓價: 9.5 折 $7,325
- 語言: 英文
- 頁數: 304
- 裝訂: Hardcover - also called cloth, retail trade, or trade
- ISBN: 0367365952
- ISBN-13: 9780367365950
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相關分類:
化學 Chemistry
海外代購書籍(需單獨結帳)
相關主題
商品描述
The process of photosynthesis is a potential source of energy and bioproducts. Renewable sources of polymeric materials offer an answer to maintaining sustainable development of economically and ecologically attractive technology. The innovations in the development of materials from biopolymers, preservation of fossil-based raw materials, complete biological degradability, reduction in the volume of garbage and compostability in the natural cycle, climate protection through reduction of carbon dioxide released, and the application possibilities of agricultural resources for the production of bio/green materials are some of the reasons why such materials are attracting public interest.
FEATURES
- Discusses waste from urban areas, forestry and agricultural processes, specifically grown crops such as trees, starch crops, sugar crops hydrocarbon plants and oils, and finally aquatic plants such as water seaweeds and algae, which can be used as raw materials for sustainable development.
- Presents recent advances in the development of some specifically chemical components of biomasses for a sustainable future.
- Focuses on lignocellulose as a source of bio-based products.
- Draws upon expertise from various countries.
- Describes how upgraded and integrated biomass processing may reduce the risks associated with the COVID-19 pandemic.
Valentin I. Popa is professor emeritus of Wood Chemistry and Biotechnology at Gheorghe Asachi Technical University of Iasi, Romania.
商品描述(中文翻譯)
光合作用的過程是一個潛在的能源和生物產品來源。可再生的聚合物材料來源為維持經濟和生態上具吸引力的技術的可持續發展提供了解決方案。從生物聚合物開發材料的創新、保護化石原材料、完全生物降解、減少垃圾體積及其在自然循環中的堆肥性、通過減少釋放的二氧化碳來保護氣候,以及利用農業資源生產生物/綠色材料的應用可能性,都是這些材料吸引公眾關注的原因之一。
特點
- 討論來自城市地區、林業和農業過程的廢棄物,特別是專門種植的作物,如樹木、澱粉作物、糖作物、碳氫植物和油類,最後是水生植物,如海藻和藻類,這些都可以作為可持續發展的原材料。
- 提出一些特定化學成分的生物質在可持續未來發展中的最新進展。
- 專注於木質纖維素作為生物基產品的來源。
- 借鑒來自不同國家的專業知識。
- 描述升級和整合的生物質處理如何減少與COVID-19大流行相關的風險。
Valentin I. Popa是羅馬尼亞雅西的Gheorghe Asachi技術大學木材化學和生物技術的名譽教授。
作者簡介
Valentin I. Popa is professor emeritus of Wood Chemistry and Biotechnology at Gheorghe Asachi Technical University of Iasi, Romania. Professor Popa earned a BSc and an MSc in chemical engineering (1969) and a PhD in polysaccharide chemistry (1976) at Polytechnic Institute of Iasi, Romania. He was awarded the Romanian Academy Prize for his contributions in the field of seaweed chemistry (1976). He has published more than 600 papers in the fields of wood chemistry and biotechnology, biomass complex processing, biosynthesis, and biodegradation of natural com- pounds, allelochemicals, bioadhesives, and bioremediation. Professor Popa is the author and co-author of 38 books and book chapters.
作者簡介(中文翻譯)
Valentin I. Popa 是羅馬尼亞雅西的 Gheorghe Asachi 技術大學木材化學與生物技術的名譽教授。Popa 教授於羅馬尼亞雅西的理工學院獲得化學工程學士學位和碩士學位(1969年),並於1976年獲得多醣化學博士學位。他因在海藻化學領域的貢獻而獲得羅馬尼亞科學院獎(1976年)。他在木材化學與生物技術、生物質複合加工、天然化合物的生物合成與生物降解、化感物質、生物黏合劑及生物修復等領域發表了超過600篇論文。Popa 教授是38本書籍和書章的作者及合著者。
