2012 Vol. 2, No. 6

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2012 Vol.2, No.6
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Water Pollution Control Technology and Resource Utilization
Effect of 2-Bromoethane Sulfonate on Operational Performance and Microorganism Structure of Anaerobic Baffled Reactor
DENG Zun, PENG Jian-feng, SONG Yong-hui, YUAN Lin-jiang
2012, 2(6): 461-467. doi: 10.3969/j.issn.1674-991X.2012.06.072
Abstract(3213) PDF(861KB)(1361)
Abstract:
The influence of 2-bromoethane sulfonate (BES) on the operational performance, intermediate metabolite-volatile fatty acid (VFA) and the microorganism population structure of the anaerobic baffled reactor (ABR) was investigated, aiming at the acidification problem in anaerobic reactors. The results showed that BES could decrease the processing performance of ABR, and when the BES dosage was 0.27 mmol/L, the removal efficiency of CODCr decreased from 95% to 10% correspondingly. The addition of BES increased the acidification risk of ABR with the pH value decreasing to 5.5 and VFA accumulating. The effluent VFA reached to about 15.3 mmol/L with butyric acid, pentanoic acid and hexanoic acid accounting for more than 36%. When BES was added,the relative abundance of methanogens decreased by 25%, and that of hydrogen-producing acetogenic bacteria and homoacetogenic bacteria increased by 9% and 7%, respectively. The PCR-DGGE and Diversity Index also showed that while adding BES, the microorganism population structure in each compartment of ABR was affected significantly and the bacteria population diversity and richness decreased remarkably. Also, the dominant species changed from Firmicutes and Bacterium to Bacteroidetes, Spirochaetes and δ-proteobacteria.
Properties of Soluble Organic Materials in Effluent of a Petrochemical Wastewater Treatment Plant based on Molecular Weight Distribution
XU Min, WU Chang-yong, ZHOU Yue-xi, ZHANG Sheng, GAO Zhen, SUN Qing-liang
2012, 2(6): 468-472. doi: 10.3969/j.issn.1674-991X.2012.06.073
Abstract(2921) PDF(589KB)(935)
Abstract:
The biological effluent in a petrochemical wastewater treatment plant (WWTP) was classified by ultrafiltration membrane separation. The material characteristics, composition and amounts of dissolved organic fractions in different molecular weight ranges were investigated by measuring TOC, UV254 and three-dimensional fluorescence spectrum. The results showed that organics on the fraction of molecular weight less than 1 kDa had the largest ratio in total organics of the biological effluent in the wastewater treatment plant, and the DOC of this fraction was about 92.7% of the total DOC. The aromatic structure was rich in 5 kDa and 10 kDa molecular weight components. Three-dimensional fluorescence spectrum analysis showed that dissolved organics on the fraction of molecular weight higher than 1 kDa mainly contained protein and humus materials, among which aromatic tryptophan was the dominant protein.
Process of Phosphorus and Nitrogen Dissolution from Sludge by Anaerobic Digestion and Their Recovery by Modified Red Mud Seeded Crystallization
ZHAO Hai-xia, SONG Yong-hui, QIAN Feng, DENG Zun, YUAN Lin-jiang
2012, 2(6): 473-479. doi: 10.3969/j.issn.1674-991X.2012.06.074
Abstract(3128) PDF(919KB)(1068)
Abstract:
On purpose of phosphorus (P) and nitrogen (N) recovery from sludge, the P and N release by anaerobic digestion from sludge, and their recovery by modified red mud seeded crystallization of magnesium ammonium phosphate (MAP) were studied. The effects of sludge mixture pH, temperature and anaerobic digestion time on the release of phosphate and ammonia nitrogen were investigated. It showed that under the conditions of 50℃, 5~7 days of anaerobic time and without pH adjustment, the sludge mixture could release around 200.0 mg/L phosphate, 245.0 mg/L ammonia nitrogen, and the N:P molar ratio was 2.5:1. Taking the modified red mud as inducing seed crystal, the phosphate and ammonia nitrogen in the supernatant of the digested sludge were fixed and recovered by MAP crystallization, and the effects of modified red mud dosage, reaction time, stirring speed and precipitating time on the recovery efficiency were investigated. It showed that under the conditions of 10 g/L red mud, 90 minutes reaction time and 200 r/min stirring, the recovery efficiency of P and N was 98.8% and 39.9%, respectively. The electron scanning microscopy and X-ray diffraction were employed to characterize the fixed products of the above process, and it showed that MAP was formed on the surface of the modified red mud.
Preparation of Ag-doped Titania Nanotube and Its Photocatalytic Degradation Performance for Nitrobenzene Wastewater
ZHOU Yong, JIANG Fang, ZHANG Jin-hua, MENG Fan-chun, LIU Xiao-heng
2012, 2(6): 480-484. doi: 10.3969/j.issn.1674-991X.2012.06.075
Abstract(2750) PDF(673KB)(979)
Abstract:
Ag-doped titania nanotubes (Ag/TiNT) were prepared by photo-reduction method on the surface of Titania nanotubes (TiNT). XRD, TEM, XPS and BET specific surface area analysis methods were used to characterize the structure and morphology of TiNT and Ag/TiNT. The effects of calcination temperature of TiNTs, pH of the reaction system and Ag loading on the photocatalytic activities of Ag/TiNT for nitrobenzene removal were investigated. The results showed that the presence of Ag on the surface of TiNT had no effect on the phase composition and TiNT retained their nanotubular structure. Ag doping enhanced the photocatalytic removal efficiency of TiNT for nitrobenzene. The TiNT calcined at 400 ℃, doped with 0.5% Ag showed the highest photocatalytic activity. After irradiation for 140 minutes, the photocatalytic removal rate of Ag/TiNT for nitrobenzene reached 95.9% with the initial concentration of nitrobenzene 100 mg/L , the pH 3.5 and the amount of photocatalyst 0.4 g/L.
Research on the Treatment of Ammonia-nitrogen Wastewater by Lead Dioxide Power Porous Electrode
ZHU Yan, WANG Jia-quan, CHEN Shao-hua, XU Jian-hua, HU Jie
2012, 2(6): 485-490. doi: 10.3969/j.issn.1674-991X.2012.06.076
Abstract(2928) PDF(812KB)(998)
Abstract:
Pure PbO2 electrode and PbO2 powder porous electrode which was modified by adding graphite and activated carbon powder, were prepared by high pressure molding. The electrode properties were evaluated by means of SEM and cyclic voltammetry. Furthermore, the electrocatalytic property was further examined through the treatment of ammonia-nitrogen wastewater. It was showed that PbO2 powder porous electrode was better in view of electrical conductivity and electrocatalytic activity and the optimum mass percentage of graphite and activated carbon powder was 15% to 20%. Removal efficiency of ammonia nitrogen was improved continuously with increasing current density and increasing concentration of chloride ion added. Besides, ammonia-nitrogen removal efficiency reduced continuously with increasing pH when the initial pH was between 3.0-10.0, but increased when that was between 11.0-12.0. The treatment of ammonia-nitrogen wastewater by PbO2 powder porous electrode was due to strong oxidizing substances, such as ·OH, HClO and ClO-, which were produced by the electrocatalytic activity of anode, and the ammonia-nitrogen was finally oxidized into NOx gas mainly with N2 and with small amount of nitrate nitrogen.
Application of Fuzzy Control in Temperature Control System of Wastewater Treatment Technology Assessment Laboratory
ZHANG Wei, XU Chun-lian, HUANG Hai-ming, MA Ai-jun, WU Shao-wei
2012, 2(6): 491-495. doi: 10.3969/j.issn.1674-991X.2012.06.077
Abstract(2813) PDF(604KB)(1347)
Abstract:
The raw wastewater with suitable and stable temperature was required for the verification and assessment on the biological treatment technologies of water pollution control. Aiming at the uncertainty, non-linearity and big lag characteristics of the temperature control system, the algorithm of self-adjustment fuzzy control was adopted. The raw water temperature error and error change ratio before and after the heat exchanger were acted as input. According to the raw water temperature feedback after the heat exchanger, the online self-adjusting was performed for output of controller, and the hot water valve was in real-time control to adjust the hot water flow, so that the raw water after the heat exchanger quickly reached the set temperature and held stable, providing necessary conditions for realizing objective verification and assessment on the biological treatment technologies. The results of Simulink simulation experiment based on Matlab working conditions showed that the fuzzy self-adjustment controller had good dynamic properties, and temperature control system of the controller obtained good quickness, stability and strong robustness.
Air Pollution Control Technology and Usage of Clean Energy
Emission Regulation for Stationary Compression Ignition Internal Combustion Engines in the United States
LI Gang, YUAN Ying, JI Liang, WU Xue-fang, ZHANG Guo-ning, JIANG Mei, REN Chun
2012, 2(6): 496-502. doi: 10.3969/j.issn.1674-991X.2012.06.078
Abstract(2756) PDF(971KB)(1532)
Abstract:
The United States is the first country to regulate the emissions from stationary engines in the world. Its stationary engine emission regulations were developed based on the best demonstrated technology (BDT). For stationary compression ignition internal combustion engines (CI engines), the emission regulation was fully harmonized with the non-road mobile machinery and marine CI engine’s emission regulations. The regulation set the exhaust emission standards for engines and also for stationary facilities. Meanwhile, the fuel used by the stationary CI engines was also regulated. Based on the study of the emission regulations, the characteristics of stationary engine emission control policy in the US were analyzed, and the recommendations to develop China’s stationary engine emission standards proposed.
Overview of Research and Application of CO2 Geological Sequestration at Home and Abroad
ZANG Ya-qiong, GAO Zhen-ji, ZHONG Wei
2012, 2(6): 503-507. doi: 10.3969/j.issn.1674-991X.2012.06.079
Abstract(2843) PDF(665KB)(882)
Abstract:
The progress of greenhouse gases geological sequestration projects in major developed countries was introduced, and current research status of CO2 geological sequestration and the progress of demonstration-scale projects in China were briefly reviewed. There were three types of CO2 geological storage sites, i.e. deep unminable coal seam, deep saline aquifers and depleted oil/gas field. The advantages and disadvantages of these sites were described and compared. Meanwhile the potential of geological sequestration in China was analysed based on the documentary analysis and material research. Finally, it was pointed out that the potential of CO2 geological sequestration in China was large and CO2 geological sequestration was of great significance for China’s greenhouse gas emission reduction and socio-economic development.
Hot Forum
The Role of Field Test Assessment in Environmental Technology Assessment in China
SONG Qian-wu, BAI Lu, ZHAO Xiu-qin, JIANG Ping, ZHANG Wei
2012, 2(6): 508-511. doi: 10.3969/j.issn.1674-991X.2012.06.080
Abstract(2764) PDF(662KB)(1644)
Abstract:
In order to promote the field test assessment and improve the environmental technology assessment in China, the problems of current environmental technology management system were deeply analyzed, and the role of field test assessment in the environmental technology assessment discussed. It was pointed out that the field test assessment was indispensable for performing best availability technology (BAT) assessment and environmental technology verification (ETV). Also, the field test assessment could accelerate incubation of new technologies, and promote environmental technology industrialization. The field test assessment was the key approach to build the environmental technology assessment system, and to improve the environmental technology assessment management level in China.
Solid Waste Pollution Prevention and Recycling Technology
Influence of Garden Green Wastes Addition and Freeze-thaw Pretreatment on Food Waste Anaerobic Digestion Efficiency
TANG Xiao-da, WAN Shun-gang, ZHANG You-chi, LUO Wen-sui
2012, 2(6): 512-518. doi: 10.3969/j.issn.1674-991X.2012.06.081
Abstract(2873) PDF(937KB)(1030)
Abstract:
The influences of three different garden green wastes, including leaves of eucalyptus, canna lily, and weed mixture of alligator alternathera, vergate wormwood and tropic ageratum, on anaerobic digestion of food waste were investigated in a batch test. The results indicated that the treatment with weed mixture had the highest capacity to produce methane from volatile solid (VS) degraded, with the production rate of 827.0 mL/g (VS). In the treatments with leaves of eucalyptus and canna lily, the VS-methane production rates were at 307.9 mL/g(VS) and 287.3 mL/g(VS), respectively. The freeze-thaw pretreatment effectively improved methane production by 25.0% and 85.4% in the treatments with weed mixture and canna lily leaves, respectively. The energy production benefits were increased from 6 106 kW?h/t(VS) to 7 633 kW?h/t(VS) for the weed mixture treatment, and from 1 694 kW?h/t(VS) to 3 141 kW?h/t(VS) for the canna lily leaves treatment. Therefore, the addition of herbal garden waste and freeze-thaw pretreatment could enhance energy production benefit for anaerobic co-digestion of food wastes, and thus be an effective way to convert municipal solid wastes into renewable energy.
Application of Inexact Full-infinite Chance-constrained Mixed Integer Optimization Model in Solid Waste Management
SU Jing, JI Dan-feng, XI Bei-dou, HE Xiao-song, MENG Fan-hua, WANG Yue
2012, 2(6): 519-524. doi: 10.3969/j.issn.1674-991X.2012.06.082
Abstract(2854) PDF(702KB)(1219)
Abstract:
In order to more effectively reflect the multiple uncertainty in the solid waste management system, a combination of the optimization methods was proposed to solve the uncertainty problems e.g. of the interval parameters, functional parameters and random parameters, and an inexact full-infinite chance-constrained mixed integer linear programming (IFICCMILP) model was proposed. Conventional inexact mixed integer programming model (IMILP) and IFICCMILP were used and compared to expound the applicability and characteristics of the latter. The optimization result of IFICCMILP had great differences from IMILP due to the diversity of parameters input and strict constraint conditions. The system costs of conventional model were lower than the proposed model due to the only one objective function and the reduced number of constraints. However, the proposed model was more reliable since it guaranteed that all the constraints and objectives were satisfied, and thus the system risk due to less consideration of possible constraints and other parameters could be avoided. Moreover, the proposed model presented optimization plans of different risk levels, which provided more decision space for the decision makers.
Characteristics and kinetics of the pyrolysis of coking coal tailings
LIU Hai-bing, HUI He-long, FU Xing-min, LIU Shu-cheng, JIA Jin-wei, SHU Xin-qian, GU Jun
2012, 2(6): 525-530. doi: 10.3969/j.issn.1674-991X.2012.06.083
Abstract(2903) PDF(758KB)(944)
Abstract:
The influences of final temperature and heating rate on the pyrolysis characteristics of coking coal tailings and the pyrolysis products were examined by fixed-bed pyrolysis and TG analysis. The tailing pyrolysis kinetics parameters were calculated by using Coats-Redfern method. The activation energy of the pyrolysis of tailings was between 22.6-66.2 kJ/mol, and the process of pyrolysis could be described by three second-order reactions. The results of fixed reactor experiment showed that the temperature had important influence on the tailings volatiles release. There was no gas formation below 600 ℃, and the reaction remarkably occurred after 600 ℃, where the yields and the caloric value of gases increased simultaneously. With the increase of temperature, hydrogen, methane and carbon dioxide first increased and then decreased but carbon monoxide increased. The maximum release of hydrogen (72.61%) and methane(22.09%) appeared respectively at about 900 ℃ and 800 ℃. The tailings pyrolysis by 30 g tailings of coking coal could produce 4.3 L gas and 1.72 L hydrogen. The products had good yields and reuse value. The research is of great significance to guide the tailings disposal.
Soil pollution prevention and integrated management
Dynamic Prediction for Gulf Land Use Based on CA-Markov Model
WU Ji-qiu, YU Hua-mei, XIAO Ming, GE Cheng-jun, TANG Wen-hao
2012, 2(6): 531-539. doi: 10.3969/j.issn.1674-991X.2012.06.084
Abstract(3224) PDF(2291KB)(1030)
Abstract:
Taking Bamen bay as the research area, adjustive land use constraint conditions were proposed by using GIS analysis methods, based on the results forecasted by Markov model and from the perspective of land use suitability principle and ecological protection. The CA-Markov model was used to forecast and simulate the land use change tendency of until 2020. The results showed that the land covered by natural vegetation and functional vegetation such as shelterbelt, natural forest and mangrove would increase. On the contrary, the agricultural productive land such as aquaculture bases, orchards and paddy fields would decline. It was indicated that under the sustainable development principles of land use, it would be possible to achieve the goal of coordinated development of society and eco-environment, without any major influence on economic development.
Industry Trends
A Review of Research Progress of Key Technologies of Spent Nickel-Cadmium Batteries Disposal and Metal Recovery
CHENG Jun-hua, ZHANG Jian, XU Xin-min, CHEN Gang, LI Gong-ning, WANG Pei-zhao
2012, 2(6): 540-544. doi: 10.3969/j.issn.1674-991X.2012.06.085
Abstract(3005) PDF(829KB)(831)
Abstract:
The current status of key technologies of disposing spent nickel-cadmium batteries was introduced, involving pretreatment, distillation, extraction, hydrometallurgical separation as well as treatment of wastewater, waste gas and solid waste. The research results of bio-metallurgy, vacuum metallurgy and emulsion liquid membrane separation were also introduced systematically. The impacts of different processes on the environment were compared.

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