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Recently, a new phosphor, Eu3+:(Y, Gd)2O3 (Eu:YGO) is reported as a high-efficient X-ray emitting material [2].
[7] Shen S F, Ma W M, et al: The Chinese Journal of Nonferrous Metals，2008, 18(10):1931-1936
[8] Shen D Y: The application of infrared spectrometry in polymer research (Beijing: Science press, China, 1982)
[9] Peng W S, Liu G K: Infrared Spectra of minerals (Beijing: Science press, China, 1982)
[13] Zhou F, Fang Y, Dai S Y: The Journal of Light Scattering, 2008, 20(1):77-80

Study on the Effects of Nitrogen Pollution to the Soil and Groundwater Xiaohui Lu1,2*, Yang wang1,2 1 School of Earth Sciences and Engineering, Hohai University, Nanjing, China 2 Key Laboratory of Water Resources and Hydropower Engineering Science, Wuhan University, Wuhan, China Keywords: Nitrogen Pollution; soil pollution; groundwater pollution Abstract.
ACKNOWLEDGEMENTS The study is financially supported by Open Research Fund Program of State Key Laboratory of Water Resources and Hydropower Engineering Science(2011B081), “The National Natural Science Funds”(41202172),“the Fundamental Research Funds for the Central Universities” (2009B02714), China Postdoctoral Science Foundation (2016-410033) REFERENCES [1]Colin Macilwain.US report raises fears over nitrate levels in water[J].
Journal of Hazardous Material,2007,(148):253-258
Journal of Contaminant Hydrology,2004 (69):263-279

So material and energy cycle could easily be achieved, due to the plant growth.
Beijing: China Environmental Science Press, 2001,4(in chinese) [3] Wang Z G.
Beijing: Science Press,2001, 7(in chinese) [5] Zhang Shixia.Analysis of Hydrologic-Ecological Characteristics of River Basin Landscape and Study of Landscape Ecological Planning [J].
Journal of Lake Science, 2007,19(5):558-565(in chinese) [7] (Japan) Urbanization neighborhood landscape [M].
Landscape Ecology, 2002,17(1):5-18 [9] Zhang Shixia,Wang Ziwen, Zhang Jiming.Journal of Zhejiang University(Engineering Science),2007,41(6):1053-1060(in chinese) [10] Zhang Shixia, Zhang Jiming.Study of New Urban Stormwater Drainage System and Analysis of Example [J].

Information concerning resources, products and processes are gathered on a high detail level e.g. on a material number level.
Rather the consideration of product and resource groups, which contain different material numbers or resources is reasonable.
, Complexity Management Journal, 01/2012 [5] G.
In: Omega – The International Journal of Management Science, No. 5, Volume 28, 2000, pp. 581-598 [14] F.
Harding, et al., Data Mining in Manufacturing: A Review, in: Journal of Manufacturing Science and Engineering, Volume 128, 2006, pp. 969-976 [19] J.

Materials Science & Engineering A 597(2014)314-323
Journal of Materials Processing Technology 212 (2012) 1157–1168
Materials Science and Engineering A 527 (2010) 1962–1969
Materials Science and Engineering A 390 (2005) 127–138
Materials Science and Engineering A354 (2003) 298-305.

[5] Jang-Bog Ju, Woo-sik Kim, Jae-il Jang,Variations in DBTT and CTOD within weld heat-affected zone of API X65 pipeline steel, Materials Science and Engineering A, 546(2012)258-262
Gerlich, Influence of martensite-austenite (MA) on impact toughness of X80 line pipe steels, Materials Science and Engineering A, 662 (2016) 481-491
Jansto, Microstructure and high strength–toughness combination of a new 700 MPa Nb-microalloyed pipeline steel, Materials Science and Engineering A, 478 (2008) 26-37
Mahajan, Deformation twinning, Progress in Materials Science, 39 (1995) 1-157
Ivey, Transformation twins in the weld HAZ of a low-carbon high-strength microalloyed steel, Materials Science and Engineering A, 435-436(2006)371-382

Ding: Journal of xinjiang university.
Sun and W Ma: Marine Science Bulletin.
Zhong: Journal of guangxi university.
Bai: Journal of qinghai university.
Chen: Journal of qinghai normal university.

Mining Journal, (5), 14-18
Sustainable Development Strategy for Energy in China, Advanced Materials Research, (361-363), 1315-1327
Eastern-European Journal of Enterprise Technologies.
Eastern-European Journal of Enterprise Technologies, 2(10(80)), 9-18.
Fundamentals of dispersed composition' analysis of industrial dust and crushed materials.

Materials and Methods Soils and Sampling Site.
Journal of Anhui Agri.
Wang: Chinese saline soil (Science Press, China and 1993)
Journal of Agro-Envirnment Science, Vol. 26(2007) No.S1, p.181.
Journal of Nanjing Forestry University, Vol. 34(2010) No.3, p.57.

The summary of reverse logistics 1.1The definition of reverse logistics Logistics is to meet consumers’ demand for raw materials, intermediate inventory, the final product and related information from the origin to the effective flow and storage consumption in the planning, implementation and control process.
The definition of reverse logistics originated in foreign countries, the earliest concept of reverse logistics by Stock (1992) put forward, he pointed out: the reverse logistics is a product return, material substitution, reuse of materials, waste processing, processing, repair and remanufacturing process of logistics activities(chart1).
The American Association of logistics management to the definition of reverse logistics is "for the recycling or disposal of waste, in the effective and proper cost of raw materials, WIP, finished goods, and related information, flow and storage to the original output point from the point of consumption, process planning, execution and control, so as to achieve the recovery value and proper disposal. "[1,2] Chart 1.The process of reverse logistic In 2001, China developed national standards, "logistics terms" (GB / Tl 8354.2001), the reverse logistics was classified into two categories: returned logistics and waste material logistics.
The rapid energy consumption, leading to the production cost of enterprises is also increasing, strengthen management of reverse logistics, enterprises can through the recycling of waste re-use items, fully tap the value of residual waste materials or regain the use value of products; at the same time as the recycling of waste products is low price, abundant source, can reduce the cost of raw materials, thus obtained economic benefits at lower cost[4]. 3.2The construction of reverse logistics system of waste products.
For example, in Japan, because the labor cost is relatively high, the overall level of consumption of residents is relatively high, the secondary market is very small, for reverse logistics of waste household appliance is mainly carried out through the recycling of raw materials, mechanization, automation of the whole process of waste household appliances is relatively high, after collecting, isolated by removing, crushing the various components and then again used as the raw material, the raw material price is usually lower, therefore, recycling the waste appliance reverse logistics system utilization rate is low, although the recycling rate is relatively low, can be effective and good to reduce the pollution of the environment, on the long run, this is feasible.