1、我国新型肥料产业发展战略研究

Traditional fertilizers like urea, ammonium phosphate, potassium chloride, and compound fertilizers are heavily invested and play a key role in making sure China has enough food.

2、我国新型肥料产业发展战略研究

为推动新阶段新型肥料产业结构绿色高效转型升级,未来我国的新型肥料产业发展战略核心包括以下4个方面:1)以农业需求为导向,提升肥料产品与生产需求的匹配度;2)肥料增效技术由注重养分供给向土壤环境、作物吸收和有效供给综合调控发展,肥料增效材料向高效、环保和价廉方向发展,肥料产品向营养、土壤改良和抗逆等多功能发展;3)注重最大限度地利用资源,降低能耗,通过大型肥料生产设备的优化和改造,力争实现新型肥料由二次加工到一次生产的突破,实现新型肥料生产的绿色低碳转型;4)建立健全肥料生产、销售和使用全链条监管体系,保障新型肥料产业的高质量健康发展。

3、Review and prospect for development of new

In the past decade,China has made significant progress in the research and application of new-type fertilizers.Compound fertilizers,slow/controlled-release fertilizers,organic fertilizers,and water-soluble fertilizers and other new-type fertilizers have played an important role in promoting nitrogen fertilizer utilization efficiency ...

新型高效肥料研究展望

利用新方法、新工艺生产的的高效、缓释控释、长效和环境友好的肥料称为新型肥料。 概要回顾了我国"十一五"时期新型肥料研发取得的主要进展,分析了未来肥料发展的主要问题和趋势,提出复合高效是未来肥料发展的总趋势,缓释、控释和环境友好是重点,开发生物肥料是重要任务;介绍了"物理肥料"的种类和作用,指出要加强中量、微量及其有益元素的营养机理,养分资源宏观管理信息系统及其植物营养与肥料的应用基础研究等。

Review of research and innovation on novel fertilizers for

To advance fertilizer research, investments in shared protocols, global research networks, and pre-competitive studies are essential to close knowledge gaps, ensure food security, and reduce...

(PDF) New Generation Fertilizers

1. Controlled Release Fertilizers (CRF): These fertilizers provide nutrients gradually over a long period of time, better meeting plant demand. This alleviates the impact on the environment

Classification and Characteristics of Compound Fertilizers

Commonly used types may be referred to as chemical fertilizers, mixed compound fertilizers, blended fertilizers, and organic-inorganic compound fertilizers. This article describes in detail the definition, advantages and disadvantages of these complex fertilizers and the problems that should be paid attention to in production and application.

Compound Fertilizers

This model of incorporating new technology into commercial products through science- and service-based fertilizer enterprises provides a “win-win” strategy for technology transfer and enterprise development.

Novel Fertilizer Technologies and their modes of action

With the goal of enhancing efficiency, novel fertilizers are becoming essential for sustainable agriculture. These fertilizers include slow- and controlled-release formulations, microbial coatings, nanofertilizers, and other enhanced-efficiency technologies.

Development strategies of the new

The fertilizer industry is the backbone of agriculture. Traditional fertilizers like urea, ammonium phosphate, potassium chloride, and compound fertilizers are heavily invested and play a key role in making sure China has enough food.

New-type fertilizers refer to products developed through modern scientific and technological means, employing innovative production processes, raw materials, and formulations. These fertilizers are characterized by high efficiency, environmental friendliness, and economic viability. Compared to traditional fertilizers, new-type fertilizers exhibit the following features:

1. High Efficiency: New-type fertilizers enhance crop growth rates and yields while reducing the usage of chemical fertilizers, thereby mitigating environmental pollution. For instance, organic fertilizers improve soil structure and fertility, promoting plant growth; meanwhile, microbial fertilizers introduce beneficial microorganisms that facilitate nutrient absorption and boost crop productivity.

2. Environmental Friendliness: The production of new-type fertilizers generates minimal waste and has a reduced impact on the environment. A case in point is bio-fermented fertilizer, which harnesses biological fermentation to produce abundant beneficial microbes. These microorganisms decompose soil organic matter, decreasing reliance on chemical fertilizers and subsequently lowering environmental contamination.

3. Economic Viability: New-type fertilizers are relatively affordable, helping to cut agricultural production costs. Additionally, they enhance crop quality and taste, increasing farmers' incomes. For example, slow-release fertilizers minimize the loss and volatilization of chemicals, optimizing nutrient utilization efficiency and reducing operational expenses.

Compounding technology involves combining two or more types of fertilizers to amplify their effectiveness and economize costs. Its key characteristics include:

1. Complementarity: This technology leverages the strengths of diverse fertilizers to create synergistic effects. For example, nitrogen-phosphorus-potassium (NPK) compound fertilizers simultaneously satisfy crops' needs for these essential nutrients, enhancing overall fertilizer efficiency.

2. Stability: Compounding techniques stabilize fertilizers, preventing nutrient leaching and volatilization. Mixing trace element fertilizers with NPK compounds, for instance, reduces micronutrient loss and boosts efficacy.

3. Adaptability: Tailored fertilizer blends cater to specific crop requirements and soil conditions, optimizing outcomes. In acidic soils, applying lime to adjust pH followed by NPK compounds addresses crop growth needs effectively.

4. Economic Benefits: By strategically matching fertilizer ratios, compounding technology maximizes resource use while trimming costs. Optimal blending ensures efficient utilization, curbing production expenditures.

new-type fertilizers and compounding technology represent crucial advancements in modern agriculture. They elevate fertilizer performance, curtail environmental harm, and bolster both agricultural productivity and farmer earnings. As science and agriculture progress, these innovations are poised for broader implementation.