“第六产业”发展及其化工技术支撑

被引：5

作者：

金涌

罗志波

胡山鹰

陈定江

朱兵

机构：

[1] 清华大学化学工程系

来源：

化工进展 | 2017年 / 36卷 / 04期

关键词：

第六产业; 化学工程; 农化产业; 化肥; 农药; 农膜;

D O I：

10.16085/j.issn.1000-6613.2017.04.001

中图分类号：

S-1 [农业科学技术现状与发展];

学科分类号：

09 ;

摘要：

当前传统的小农经济已经无法担负起保证农业增产、农民增收的重任,也不利于食品安全和环境保护,发展集约化经营的现代农业是大势所趋。"第六产业"正是发展现代农业的一剂对症良方。其中,在我国农业的发展过程中,以化肥、农药、农膜等为代表的化工产品对于提高粮食单产、保障粮食自给自足方面作出了重要的贡献。然而,资源的紧缺、环境的变化以及农业现代化的发展,对支农化工产品及农化服务提出了新的要求。本文简要回顾了我国农业革命的发展历程,剖析"第六产业"的内涵,阐述在"第六产业"视角下,化学工程及农化产业对农业革命发展的重要支撑作用。特别地,农化产业转型的重点在于开发节能、环保、高效、绿色的新型支农化工产品,包括新型化肥、新型低毒农药、高性能可降解农膜等。与此同时,需要改革传统的化肥施用形式,推广配套的水肥药一体化灌溉技术。此外,"治标治本"的新型土壤修复技术、良种培育技术、作物抗逆性能改良技术、农产品高值化技术、农业废弃物资源化利用技术等其他涉农领域的技术创新也应大力推进,农业组织形式改造与农化服务升级也是必不可少的。在"第六产业"发展的背景下,农化产业将迎来新的发展机会,随着新型化工产品及先进技术的应用,可望取得重大的社会经济效益。

引用

页码：1155 / 1164

页数：10

共 41 条

[1]

Soil temperature and soil water potential under thin oxodegradable plastic film impact on cotton crop establishment and yield.[J].M.V. Braunack;D.B. Johnston;J. Price;E. Gauthier.Field Crops Research.2015,

[2] Poly(butylene succinate) (PBS)/ionic liquid plasticized starch blends: Preparation, characterization, and properties [J].

Liu, Dan ;

Qi, Zhiguo ;

Zhang, Yang ;

Xu, Jun ;

Guo, Baohua .

STARCH-STARKE, 2015, 67 (9-10) :802-809

[3]

Plant Adaptation to Acid Soils: The Molecular Basis for Crop Aluminum Resistance.[J].Leon V. Kochian;Miguel A. Piñeros;Jiping Liu;Jurandir V. Magalhaes.Annual Review of Plant Biology.2015, 1

[4] Towards biohythane production from biomass: Influence of operational stage on anaerobic fermentation and microbial community [J].

Si, Buchun ;

Liu, Zhidan ;

Zhang, Yuanhui ;

Li, Jiaming ;

Shen, Ruixia ;

Zhu, Zhangbing ;

Xing, Xinhui .

INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2016, 41 (07) :4429-4438

[5]

Effects of furan derivatives on biohydrogen fermentation from wet steam-exploded cornstalk and its microbial community.[J].Zhidan Liu;Chong Zhang;Linjun Wang;Jianwei He;Baoming Li;Yuanhui Zhang;Xin-Hui Xing.Bioresource Technology.2015,

[6]

Estimating a new approach of fertilizer recommendation across small-holder farms in China.[J].Xinpeng Xu;Ping He;Shaojun Qiu;Mirasol F. Pampolino;Shicheng Zhao;Adrian M. Johnston;Wei Zhou.Field Crops Research.2014,

[7]

Supported and unsupported nanomaterials for water and soil remediation: Are they a useful solution for worldwide pollution?.[J].J. Trujillo-Reyes;J.R. Peralta-Videa;J.L. Gardea-Torresdey.Journal of Hazardous Materials.2014,

[8]

Effects of operating parameters on hydrogen production from raw wet steam-exploded cornstalk and two-stage fermentation potential for biohythane production.[J].Zhidan Liu;Qian Li;Chong Zhang;Linjun Wang;Bing Han;Baoming Li;Yuanhui Zhang;Hongzhang Chen;Xin-Hui Xing.Biochemical Engineering Journal.2014,

[9] Elevating crop disease resistance with cloned genes [J].

Jones, Jonathan D. G. ;

Witek, Kamil ;

Verweij, Walter ;

Jupe, Florian ;

Cooke, David ;

Dorling, Stephen ;

Tomlinson, Laurence ;

Smoker, Matthew ;

Perkins, Sara ;

Foster, Simon .

PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES, 2014, 369 (1639)

[10]

Effect of a direct electric current on the activity of a hydrocarbon-degrading microorganism culture used as the flushing liquid in soil remediation processes.[J].Esperanza Mena;José Villaseñor;Pablo Cañizares;Manuel A. Rodrigo.Separation and Purification Technology.2014,

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