Slow release of fertilizers from surface modified nanoporous materials

表面改性纳米多孔材料缓释肥料

• 批准号: 542578-2019
• 负责人: Birss, Viola
• 金额: $ 0.91万
• 依托单位: University of Calgary
• 依托单位国家: 加拿大
• 项目类别: Engage Plus Grants Program
• 财政年份: 2019
• 资助国家: 加拿大
• 起止时间: 2019-01-01 至 2020-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=675239
• 关键词: Slow; release; fertilizers; surface; modified

With a steadily growing global population, it is imperative that all available farmland is intensively utilized andthat crop yields are maximized. Carbon Control Technology (CCT) is one of Sulvaris' promising fertilizertechnology platforms, employing inexpensive and environmentally friendly materials to generate acontrolled-release fertilizer product that will enhance crop yields and minimize waste-products. The challengefacing Sulvaris in the development of CCT into a marketable product is understanding the mechanisms behindthe controlled-release phenomenon so that release characteristics can be optimized. In practice, biomassmaterials are first hydrolyzed to form a porous carbon matrix and the pores are then impregnated with vitalplant nutrients, i.e., nitrogen, potassium, phosphate and sulfur. It is hypothesized that the physical and chemicalproperties of the carbon matrices (e.g., pore sizes, porosity, elemental compositions and wettability) have asignificant effect on the rate at which nutrients are released. To test this hypothesis, a complete understandingof the effect of the microstructure of these structures on release rates and the anion and cation exchangecapacity is required. A collaboration between the Birss team at U of Calgary and Sulvaris will provide thespecific expertise and the state-of-the-art instrumentation required to fully understand the controlled-releasephenomenon. The Birss group has world leadership in nanocarbon technologies, having developed a range ofcarbon powders and membranes that exhibit carefully selected physical and chemical properties. These modelstructures will be used to aid in understanding the relationship between the carbon nanostructure and the rate ofnutrient release, as well as how biomass can be tailored to give similar properties. Samples that demonstrategood preliminary controlled-release properties in the Birss lab will then undergo long-term in situ analysis atSulvaris. With the knowledge gained from this partnership and the benefits in terms of waste management andvalue-added processes of relevance to agriculture, it is expected that Sulvaris will be better positioned for thecommercialization of CCT, resulting in multiple economic benefits for both Alberta and Canada.

随着全球人口的稳步增长，当务之急是集约利用所有可用耕地，使作物产量最大化。碳控制技术（CCT）是Sulvaris最有前途的肥料技术平台之一，它采用廉价和环保的材料来生产控制释放的肥料产品，从而提高作物产量并最大限度地减少废物。在将CCT开发成可销售产品的过程中，Sulvaris面临的挑战是了解控释现象背后的机制，以便优化释放特性。在实践中，生物质材料首先被水解形成多孔碳基质，然后用重要的植物营养物质，即氮、钾、磷酸盐和硫浸渍这些孔隙。据推测，碳基质的物理和化学性质（如孔隙大小、孔隙度、元素组成和润湿性）对养分释放的速度有重要影响。为了验证这一假设，需要完全了解这些结构的微观结构对释放速率和阴离子和阳离子交换能力的影响。卡尔加里大学的Birss团队和Sulvaris的合作将提供专门的专业知识和最先进的仪器，以充分了解控制释放现象。Birss集团在纳米碳技术方面处于世界领先地位，已开发出一系列具有精心挑选的物理和化学特性的碳粉和碳膜。这些模型结构将用于帮助理解碳纳米结构和养分释放速率之间的关系，以及如何定制生物质以获得类似的特性。在Birss实验室中表现出良好初步控释特性的样品将在sulvaris进行长期原位分析。有了从这种伙伴关系中获得的知识，以及在废物管理和与农业相关的增值过程方面的好处，预计Sulvaris将更好地定位于有条件现金转移支付的商业化，为阿尔伯塔省和加拿大带来多重经济效益。