2016 Vol. 6, No. 2

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2016 Vol.6, No.2
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Water Pollution Control Technology
Evaluation Method of Best Available Technologies for Rural Domestic Wastewater Treatment and Case Study
LUO Qijin, ZHONG Changqin, CHEN Jianyu, PANG Zhihua
2016, 6(2): 105-110. doi: 10.3969/j.issn.1674-991X.2016.02.016
Abstract(1986) PDF(763KB)(1317)
Abstract:
A comprehensive evaluation method was developed for screening rural domestic wastewater treatment technologies, taking per unit occupied area as the restricted factor, and adopting the cost-benefit analysis for the core factors and analytic hierarchy process (AHP) with grey relational degree method for secondary factors. The development process of mathematical models was provided with a case study. Six rural domestic sewage treatment technologies, including A/O, A2/O, hydrolytic acidification-biological contact oxidation process, anaerobic-constructed wetland (CW), anaerobic-ecological gully, and anaerobic-oxidation pond, were screened out as typical technologies based on literature review, on-site survey and questionnaire. The three single factors evaluations were performed individually and then the comprehensive evaluation conducted. The results of single factor evaluation showed that the hydrolytic acidification-biological contact oxidation process was the best available technology (BAT) in restricted factors evaluation and secondary factors evaluation, while the anaerobic-CW was the BAT in core factors evaluation. The results of comprehensive evaluation showed that the hydrolytic acidification-biological contact oxidation process was the BAT for rural domestic wastewater in the area in lack of land, and that the anaerobic-constructed wetland was the BAT in the area with more lands.
Study on Induction Period during Catalytic Wet Peroxide Oxidation of Phenol
ZHOU Shiwei, CHEN Shanren, XUE Peng, XU Minggang
2016, 6(2): 111-116. doi: 10.3969/j.issn.1674-991X.2016.03.017
Abstract(2005) PDF(759KB)(1079)
Abstract:
Aiming at improving the understanding of occurrence mechanism and affecting factors of induction period, a small laboratory-made reactor with batch kinetic test method was adopted to investigate the induction period occurrence reasons and the key affecting factors during phenol oxidation by H2O2 over clay-based catalysts. The results showed that the contact of active metals with H2O2 and the sequent surface modification, by decreasing pH via the reduction of ≡Fe (III) to ≡Fe (II), jointly determined the induction period. A Fermi’s equation could fit well the kinetic process (R2 > 0.99), and the reaction temperature and initial solution pH strongly affected the induction time (tI) which reduced from 59 min to 22 min and from 129 min to 0 min (no induction period), respectively, with increasing temperature and decreasing pH. The catalyst amount and H2O2 concentration had less effect on tI which reduced from 69 to 32 min and from 75 to 52 min, respectively, with increasing the contents of catalyst and H2O2. Although the undesirable induction time could be shortened or eliminated by adjusting reaction parameters, considering its cost and environmental risk, the following optimum reaction conditions should be adopted for CWPO of actual phenol-containing wastewater over clay-based catalysts: the mole ratio of H2O2 to phenol being 15, catalyst concentration being 0.8-1.0 g/L, temperature being 30-40 °C, pH of matrix not adjusted, and reaction time being 2 h.
Resource Utilization Situation and Application Prospect of Starch Wastewater
GUO Xiaoya, NIAN Yuegang, YAN Haihong, YIN Qin, GAO Peng
2016, 6(2): 117-126. doi: 10.3969/j.issn.1674-991X.2016.02.018
Abstract(1989) PDF(1366KB)(1348)
Abstract:
Starch wastewater contains a lot of starch, protein, sugar, fat and other substances of economic value, and it is not only wastes resources, but increases treatment cost when the wastewater is direct treated by anaerobic-aerobic system, so it is necessary to propel the resource utilization of starch wastewater. Based on a large number of references both at home and abroad, the resource utilization situation of starch wastewater and main technical methods was expounded and the technical characteristics of four methods were summarized, including using starch wastewater to develop ecological agriculture, recycle useful components, cultivate functional microorganism and produce new energy. Then the effect of resource utilization on the treatment of starch wastewater was analyzed and the development direction of starch wastewater resource utilization was put forward.
Review of Nitrogen Removal from Landfill Leachate Based on Partial Nitrification Technology
WANG Xi, CHEN Qin, ZENG Taotao, ZHOU Binkan, WANG Chengyi, WANG Chaodong
2016, 6(2): 127-132. doi: 10.3969/j.issn.1674-991X.2016.02.019
Abstract(2236) PDF(850KB)(1293)
Abstract:
The stabilized landfill leachate, produced from long-term landfill process of more than 5 years, is widely recognized as the most refractory wastewater due to high concentrations of ammonia nitrogen and inorganic ions and low ratio of carbon to nitrogen (C/N). The characteristics of landfill leachate were summarized, and the principles and advantages of new biological nitrogen removal technologies, such as single reactor high activity ammonia removal over nitrite (SHARON) and partial nitrification (PN) - anaerobic ammonium oxidation (Anammox) processes, were introduced, which can significantly reduce the operating costs while increasing the nitrogen removal efficiency. Also the application of new technologies in landfill leachate nitrogen removal was stated based on literature review of home and abroad. At present, there are few researches on the application of new nitrogen removal technologies in the treatment of the stabilized landfill leachate, leaving great potential for further development. The treatment effect, the best operating conditions and the reaction mechanism need to be studied deeply.
Effects of On-stream Detention Pond on Polluted Urban River Purification
YAN Bingfei, PENG Jianfeng, HU Jiguo, SONG Yonghui, CHENG Jianguang, JIANG Shihui
2016, 6(2): 133-138. doi: 10.3969/j.issn.1674-991X.2016.02.020
Abstract(1996) PDF(760KB)(1228)
Abstract:
To analyze the purifying effect of on-stream detention pond (OSDP) on polluted urban river in high temperature period (18-30 ℃), medithermal period (9-25 ℃) and hypothermic phase (5-17 ℃), three kinds of on-stream detention ponds were adopted and monitored. The retention time (HRT) of OSDP-A with a narrow channel and a fast flowing rate is 0.5 d, the HRT of OSDP-B with a wide channel and a slow flowing rate is about 2 d, the HRT of OSDP-C possessing a bank wetland and fast flowing rate is about 0.3 d. Under different temperature conditions, the removal efficiency on different pollutants indexes of 3 kinds of natural OSDPs was compared. The results shown that in the OSDP-A, the removal efficiency of TN can reached the highest, about 12%. The OSDP-B presented the best removal capability for TP with its removal efficiency as much as 45%. However, the highest removal efficiencies of CODCr were observed in OSDP-C, being 37%. The effects of various kinds of OSDP on the removal of nitrogen, phosphorus and organic contamination were observed, and the removal rates of TP and CODCr were better than TN in general. Additionally, with water temperature increasing, the treat capability of different OSDPs kept relative stable; while with water temperature decreasing, their removal efficiencies presented unstable.
Index Weight Sensitivity Analysis for Groundwater Pollution Risk Assessment Based on OAT–GIS
LIANG Huanhuan, AN Da, WANG Yue, ZHANG Boqiang, XI Beidou, WU Minghong
2016, 6(2): 139-146. doi: 10.3969/j.issn.1674-991X.2016.02.021
Abstract(2207) PDF(1085KB)(1133)
Abstract:
The accuracy of the weight assignment is an important basis for the conclusion reliability of groundwater pollution risk assessment, and analyzing or quantifying the sensitivity of the index weight is the difficulty for verifying the accuracy of the weight assignment. Taking 37 hazardous waste landfills in China for case studies and based on the index system being built for groundwater pollution risk ranking, the weight of each index was assigned by using Analytic Hierarchy Process of multi-criteria decision analysis (MCDA) model. Using the calculated minimum changes of weight, the weights of 14 indices sequentially changed in the module of weight sensitivity analysis (WSA) by using MCDA model based on one-factor-at-a-time (OAT) method. It quantified the weight susceptibility strength of 14 indices and analyzed the uncertainty in the weight assignment process of the index. Finally, it launched the visualization of spatial data statistics and analysis based on GIS. The results showed that, after weight change of the three indices including useful life, leachate quantity and terrain slope, among the 14 indices used for the groundwater pollution risk assessment in 37 hazardous waste landfills, the risk ranking of groundwater pollution in landfill changed greatest, indicating that its weight sensitivity is highest. The weight change of vadose zone permeability coefficient leaded to a minimum change of the risk ranking, and it illustrated that the weight sensitivity of this index is minimum. The method can effectively analyze and validate the accuracy of index weight assignment, identify the uncertainty of weights assigned, and help relevant decision makers have specific risk management.
Air Pollution Control Technology
Pollution Characteristics and Health Risk Analysis of Heavy Metals in PM10 and PM2.5 in Typical Cities in Hunan Province
XIE Chen, ZHANG Wenjie, YANG Wen, LI Wei, WANG Xinhua, ZHAO Xueyan, BAI Zhipeng
2016, 6(2): 147-156. doi: 10.3969/j.issn.1674-991X.2016.02.022
Abstract(2258) PDF(1247KB)(1199)
Abstract:
To investigate the pollution characteristics and health risks of heavy metals in particulate matter in Changsha, Zhuzhou, Xiangtan (CTZ) area in Hunan Province, PM10 and PM2.5 filter samples were collected in Changsha, Xiangtan and background site of Hengshan Mountain in August 2014. The concentrations of ten heavy metals were analyzed by inductively coupled plasma mass spectrometry. In order to assess the carcinogenic risk of Cr(Ⅵ) on human, Cr(Ⅵ) concentrations were calculated based on the reference ratio of 0.13 for Cr(Ⅵ) to total Cr. The health risk of heavy metals inhaled by respiratory system was assessed by the model recommended by US EPA, coupled by the exposure factors in China. Results showed that the mass concentration of PM10 and PM2.5 were respectively 42-155 μg/m3 and 18-119 μg/m3 in Changsha, and were 17-127 and 5-109 μg/m3 in Xiangtan. The concentration of Cr(Ⅵ) in Changsha and Xiangtan was 0.81 and 0.65 ng/m3 in PM10 samples, while that of As was 9.3 and 6.3 ng/m3, much higher than the relevant Chinese air quality standards. The total non-carcinogenic risk of the each heavy metal was less than 1, within the acceptable level. The carcinogenic risks for Cr(Ⅵ) and As were in the range of 10-6-10-4, belonging to the range of potential carcinogenic risks. The carcinogenic risks for Cd, Ni and Co were below 10-6, indicating that the carcinogenic risks of the three metals are acceptable.
Preliminary Study on the Effect of the Bio-lubricating-oil-additive on the Gaseous Pollutants and Particulate Matter Emissions of Diesel Engine
LIU Zemin, BAO Xiaofeng, YAO Peng, LI Kai, ZHU Rencheng
2016, 6(2): 157-162. doi: 10.3969/j.issn.1674-991X.2016.02.023
Abstract(2073) PDF(840KB)(1028)
Abstract:
The influence of the bio-lubricating-oil additive was determined by the emission experiment of the diesel engine bench test. The test procedure followed Road vehicles - Engine test code – Performance (GB/T 18297—2001) and Limits and measurement methods for exhaust pollutants from compression ignition and gas fuelled positive ignition engines of vehicles (Ⅲ, Ⅳ, Ⅴ) (GB 17691—2005). The engine speed of 2000 r/min was chosen to conduct the load characteristic test, with CO, THC, NOx and particulate matter in the exhaust gas collected and analyzed. The results show that the specific THC and CO emissions generally change little, and decreased only at low load, with the maximum reduction of about 15%. The specific NOx emission increased to a certain extent, with a maximum of rate 15%. The specific particulate concentration could be reduced significantly, with maximum rate of 53%. After using the additive, the particle number concentration of 20~100nm can be reduced at low load, the particle number concentration does not change obviously at medium load, the particle number concentrations below 20 nm and above 50 nm will be reduced at high load, while the particle number concentration of 20~50 nm will be slightly increased. With the increase of the engine load, the particle size distribution map will gradually increase and become narrow and shift to the left, and the use of additives will mitigate the trend.
Research Progress on CH4 Emissions and Oxidation Process in the Landfill
NIE Fahui, ZHOU Yongxi, ZHANG Houhu, ZHAO Keqiang, CAI Bangcheng, ZHAO Zehua
2016, 6(2): 163-169. doi: 10.3969/j.issn.1674-991X.2016.02.024
Abstract(2085) PDF(1031KB)(1077)
Abstract:
Global warming has become increasingly worse mainly due to the release of greenhouse gases. Since land?lls are the largest sources of anthropogenic CH4 emissions, the basic research on the mitigation of landfill CH4 emissions is of great significance. The research progress of methane oxidation, the status of waste treatment and the influential factors of landfill methane release were summarized. It is shown that aerobic oxidation of landfill CH4 has been extensively explored and the principles of sulphate-dependent anaerobic methane oxidation (SAMO) and nitrite-dependent anaerobic methane oxidation (DAMO) should be further studied. Landfill CH4 generation and emission was influenced by garbage composition, moisture content, temperature and pH, etc. The main research direction on landfill CH4 in the future will be to control the influential factors and to utilize the economical feasible strategies of carbon emission reduction.
Industrial Park Environmental Risk Assessment and Management Techniques
Research on Pollution Characteristics and Resource Utilization Risk of Barium Slag
WANG Xianghui, YAN Xianghua, LI Xin
2016, 6(2): 170-174. doi: 10.3969/j.issn.1674-991X.2016.02.025
Abstract(2463) PDF(548KB)(1188)
Abstract:
Through chemical reaction mechanism analysis and field investigations in typical enterprises, the generating nodes and discharge coefficient of barium slag in barium carbonate industry were analyzed. The pollution characteristics of barium slag and its building materials products were analyzed by sulfuric & nitric acid leaching standard, NEN 7371 leaching standard and NEN 7375 leaching standard. The scenario simulation of non-burnt brick with barium slag was constructed to evaluate the environmental risk in the process of barium slag resource recycling. The results showed that the discharge coefficient of barium slag in carbonization-reduction process was up to 0.8-ton waste per ton product. The leaching concentration of barium slag exceeded the standard limit for the identification of hazardous wastes by dozens of times. Therefore, the release of barium from non-burnt brick with barium slag, when directly used in the construction of drinking water pools, might cause great risk to human health.
Industry pollution control technology
Suggestions on Revision of Evaluation Index System for Cleaner Production in Electrolytic Manganese Metal Industry
WANG Zhizeng, SHI Feifei, DAN Zhigang, GAO Wubin, ZHANG Haiyan, WANG Huifeng, DUAN Ning
2016, 6(2): 175-179. doi: 10.3969/j.issn.1674-991X.2016.02.026
Abstract(2035) PDF(698KB)(1106)
Abstract:
Both the current cleaner production evaluation index system and the cleaner production standard in electrolytic manganese metal industry have played a significant role in cleaner production audit, performance assessment and promotion of the development and applications of cleaner production technologies. However, there still have several problems in the two systems, including lag in some index values, insufficiency of the indicators directly promoting the cleaner production, and narrow scope of the application of the systems. For future revision of the evaluation index system, the leading and proactive role of the LevelⅠreference values should be intensified, the indexes directly reflecting the cleaner production-related techniques, equipment and emissions be emphasized, and the application scope of the system be expanded. By establishing a practical and operable evaluation index system, the level of cleaner production of the entire industry should be promoted.
Watershed Pollution Control Technology
Engineering System Construction of Pollution Source Control in the Basins
CHEN Xiaogang, YE Chun, LI Chunhua, LI Kun, WANG Dingming, ZHAO Jiancheng
2016, 6(2): 180-186. doi: 10.3969/j.issn.1674-991X.2016.02.027
Abstract(1992) PDF(1007KB)(1160)
Abstract:
The traditional methodology for pollution control usually only focuses on the point source pollution, while ignores the non-point source pollution and endogenous pollution in lake. It is necessary to change the ideas and methods urgently, and consider all kinds of pollution sources in the whole basin. Taking the whole basin as the control unit, a systemic, three dimensional and multi-level pollution control system for a basin was built up scientifically. This system pays attention both to “management” and “treatment”, which effectively covers pollution control in the whole process of the pollution sources (point and non-point sources), pollution pathways (surface runoff and river) and terminal pollution (lake endogenesis and internal load). This novel methodology should provide scientific reference for the present comprehensive control of basin water pollution.
Environmental Risk Assessment and Management Technology
Ecological Suitability Evaluation of Industrial Layout and Case Study
WU Na, FU Zeqiang, XIE Yuanyuan, ZHANG Haibo, WU Jia, XU Jianwei, GAO Bao
2016, 6(2): 187-192. doi: 10.3969/j.issn.1674-991X.2016.02.028
Abstract(2241) PDF(864KB)(1187)
Abstract:
Abstract: According to the research progress on industrial distribution ecological suitability, ecological suitability assessment of industrial layout should be based on the influence factors of industrial distribution, and focus on the impact of economic development, resource consumption, and pollution discharge. A 5-level ecological suitability evaluation index system was then constructed, and Tieling City was chosen as an example to evaluate its water ecological suitability of industrial distribution. Results showed that Diaobingshan City, Kaiyuan City and Tieling County had a relatively higher ecological suitability of industrial layout. The natural resources and environmental effect factor, and economic effect factor, were the primary influence factors of Tieling’s industrial distribution ecological suitability. Optimization strategy for Tieling’s industrial distribution was concluded from the aspects of industrial structure optimization, coordination between industrial layout, and water resources. The strategy could help Tieling’s ecological civilization construction, and promote its coordinated development of economy and society.
Research on Evaluation Index System for State-controlled Pollution Sources Information Disclosure
LIU Baiyin, SUN Jinhua, LIU Xiaofu, XU Chao, CHEN Yunwei, LUO Lei
2016, 6(2): 193-198. doi: 10.3969/j.issn.1674-991X.2016.02.029
Abstract(2060) PDF(824KB)(1098)
Abstract:
Taking into account the monitoring characteristics of China’s state-controlled pollution sources and the practical requirements of environmental information disclosure, an evaluation index system based on the information disclosure of state-controlled pollution sources was proposed. The index system was constructed from three different layers, i.e. objective layer, criteria layer and index layer, and from five aspects of comprehensiveness, normalization, consistency, timeliness and openness. The AHP method was adopted for index weighting. By using this evaluation method, the information disclosure of state-controlled pollution sources in Shandong Province was evaluated. The results show that the information disclosure of state-controlled pollution sources in the province in 2014 was relatively comprehensive, able to reflect the general situations of the province’s state-controlled pollution sources, despite that there still existed some problems, such as incomplete and non-standard information disclosure in monitoring of some pollution sources.
Industry Trends
Feasibility Study on Roof Rainfall Power Generation for Elevators Energy Saving
DING Zelin, LI Qiang, JIAO Xiaodong, TIE Mengya
2016, 6(2): 199-202. doi: 10.3969/j.issn.1674-991X.2016.02.030
Abstract(1805) PDF(586KB)(1196)
Abstract:
The roof rainfall power generation and lift energy supply system is a natural energy recycling system that utilizes high buildings to collect and store the rainwater for power generation as building energy. The system uses the potential energy provided by the water in the upper pool to generate power, and takes advantage of the liftcar down-movement to drive the pumps and thus to lift the water. The water storage will rise up to the upper pool from the pool below, thus saving energy consumption and reducing the operating costs of elevators. Through theoretical analysis, the general energy-saving efficiency of this system was derived and, according to the actual system efficiency in case studies, the feasibility of the equipment as well as its economic, social and ecological benefits was demonstrated.

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