科研成果:
(1) 科研項(xiàng)目
1)國(guó)家“973計(jì)劃”項(xiàng)目課題: 湖泊污染物多介質(zhì)遷移轉(zhuǎn)化與沉積物基準(zhǔn)(2008CB418203), 2008.07-2012.08, 已完成, 課題負(fù)責(zé)人.
2)國(guó)家自然科學(xué)基金面上項(xiàng)目: 動(dòng)水條件下富營(yíng)養(yǎng)化水體中沉積物重金屬遷移轉(zhuǎn)化規(guī)律及沉水植物生理響應(yīng)研究(40871227), 2009.01-2011.12, 已完成, 課題負(fù)責(zé)人.
3) 國(guó)家自然科學(xué)基金青年項(xiàng)目: 河流水生植物修復(fù)對(duì)行洪和水質(zhì)凈化能力影響規(guī)律研究(50709009), 2008.01-2010.12, 已完成, 課題負(fù)責(zé)人.
4) 教育部新世紀(jì)優(yōu)秀人才支持計(jì)劃: 水生植物凈污原理及其應(yīng)用研究(NCET-07-0254), 2008.01-2010.12, 已完成, 課題負(fù)責(zé)人.
5) 江蘇創(chuàng)新人才基金項(xiàng)目: 河流生態(tài)修復(fù)工程對(duì)凈污能力和水動(dòng)力特性影響規(guī)律及互動(dòng)機(jī)理研究(BK2007526), 2007.01-2009.12, 已完成, 課題負(fù)責(zé)人.
6) 教育部重點(diǎn)項(xiàng)目: 不同尺度條件下流域溝渠河道中生源要素輸移規(guī)律研究(106088), 2006.01-2008.12, 已完成, 課題負(fù)責(zé)人.
7) 江蘇省自然科學(xué)基金: 生態(tài)型河道構(gòu)建原理及應(yīng)用技術(shù)研究(BK2004016), 2004.01-2006.12, 已完成, 課題負(fù)責(zé)人.
8) 國(guó)家自然科學(xué)基金重點(diǎn)項(xiàng)目: 城市水循環(huán)過程中污染物轉(zhuǎn)化規(guī)律與安全保障基礎(chǔ)研究(50638020),2007.01-2010.12, 已完成, 業(yè)務(wù)骨干.
9) 國(guó)家高新技術(shù)”863” 項(xiàng)目課題: 河網(wǎng)水質(zhì)強(qiáng)化凈化與水體修復(fù)技術(shù)及示范工程2002AA601012-5, 2003.01-2006.05, 已完成, 子課題負(fù)責(zé)人.
10) 國(guó)家“973” 項(xiàng)目課題: 入湖小流域生態(tài)特征及水網(wǎng)區(qū)生源要素輸移規(guī)律研究(2002CB412303), 2002.01-2005.12, 已完成, 業(yè)務(wù)骨干.
11) 黃河流域水質(zhì)監(jiān)測(cè)站網(wǎng)規(guī)劃技術(shù)研究, 黃河流域委員會(huì)水資源保護(hù)局, 2007.08-2008.07, 已完成, 課題負(fù)責(zé)人.
12) 城市水系規(guī)劃原理與應(yīng)用技術(shù)研究, 水利部水資源司, 2007.01-2008.12, 已完成, 課題技術(shù)負(fù)責(zé)人.
13) 臨淮崗工程對(duì)淮河中游河道生態(tài)環(huán)境的影響研究, 水利部淮河流域委員會(huì), 2007.06-2008.12, 已完成, 課題負(fù)責(zé)人.
14) 連云港市城市水環(huán)境綜合治理規(guī)劃, 連云港市水利局, 2004.01-2005.01, 已完成, 業(yè)務(wù)骨干.
15) 連云港市城市飲用水水源地安全保障規(guī)劃,連云港市水利局, 2006.03-2007.08, 已完成, 課題負(fù)責(zé)人.
(2) 專利
1)景觀型多級(jí)階梯式人工濕地護(hù)坡成型方法(發(fā)明專利),專利號(hào):ZL200410065916.1;
2)仿生植物對(duì)河流微污染水體的凈化方法(發(fā)明專利),專利號(hào):ZL200410065915.7;
3)斜坡式變滲徑面源截留凈化生態(tài)護(hù)岸組合系統(tǒng)(發(fā)明專利),專利號(hào):ZL 200610096765.5;
4)環(huán)形水槽模擬風(fēng)浪擾動(dòng)條件下水下沉積物再懸浮的方法及裝置(發(fā)明專利),專利號(hào):ZL 200710025671.3;
5)生態(tài)凈污型復(fù)式河床濕地系統(tǒng)成型方法(發(fā)明專利),專利號(hào):ZL200810018736.6;
6)大中河道復(fù)式平臺(tái)面源截留凈化系統(tǒng)(發(fā)明專利),專利號(hào):ZL200810123577.6;
7)垂直駁岸固定式自動(dòng)升級(jí)生態(tài)浮床載體(發(fā)明專利),專利號(hào):ZL 200810123578.0;
8)植物可更換載體的生態(tài)護(hù)岸系統(tǒng)(發(fā)明專利),專利號(hào):ZL 200910024416.6;
9)一種大坡降河流跌水曝氣改善水質(zhì)的方法(發(fā)明專利),專利號(hào):ZL 201110043714.7;
10)大水域淺水區(qū)候鳥棲息和水質(zhì)凈化復(fù)合系統(tǒng)(發(fā)明專利),專利號(hào):ZL 201110036669.2;
11)垂直駁岸活枝捆生態(tài)護(hù)岸成型方法(發(fā)明專利),專利號(hào):ZL 200910234041.6;12)污染脅迫下水生生物特性的靜態(tài)與動(dòng)態(tài)同步試驗(yàn)系統(tǒng)(發(fā)明專利),專利號(hào):ZL 200710191647.7;
13)生態(tài)滲濾型凈水丁壩系統(tǒng)(發(fā)明專利),專利號(hào):ZL 201010535189.6;
14)硬質(zhì)鋼筋混凝土護(hù)岸斜坡生態(tài)修復(fù)方法(發(fā)明專利),專利號(hào):ZL 201110036671.X;
15)一種適用于高泥沙大流速水體的生態(tài)浮床(發(fā)明專利),專利號(hào):ZL 201010159154.7;
16)河水凈化與邊坡綠地養(yǎng)護(hù)相結(jié)合的生態(tài)河岸(發(fā)明專利),專利號(hào):ZL 201010211973.1;
17)水位控制與水質(zhì)凈化功能復(fù)合的透水溢流壩(發(fā)明專利),專利號(hào):ZL 201010177823.3;
18)一種可升降植物沉塊與浮塊立體耦合凈化水質(zhì)的裝置(發(fā)明專利),專利號(hào):ZL 201010181085.X;
19)一種適用于入湖河口的移動(dòng)式植物浮島鏈(發(fā)明專利),專利號(hào):ZL 201110036368.X;
20)城鎮(zhèn)污水廠達(dá)標(biāo)尾水水質(zhì)強(qiáng)化凈化方法(發(fā)明專利),專利號(hào):ZL 201110036657.X;
21)河流水下硬質(zhì)斜坡沉水植物聯(lián)遍修復(fù)方法(發(fā)明專利),專利號(hào):ZL 201110036666.9;
22)重污染支流口多層植物帶水質(zhì)原位凈化方法(發(fā)明專利),專利號(hào):ZL 201110036659.9;
23)河流濱水多層復(fù)合植物凈污帶及構(gòu)建方法(發(fā)明專利),專利號(hào):ZL 201110038839.0;
24)河道正常水位下全斷面水體濕地凈化系統(tǒng)(發(fā)明專利),專利號(hào):201010579260.0;
25)重污染河流組合式水質(zhì)凈化丁壩群系統(tǒng)(發(fā)明專利),專利號(hào):ZL 201110043738.2;
26)垂直駁岸河湖濱水濕地系統(tǒng)及構(gòu)建方法(發(fā)明專利),專利號(hào):ZL 201110043711.3;
27)輸水型湖蕩水質(zhì)生態(tài)改善方法(發(fā)明專利),專利號(hào):ZL 201110043701.X;
28)一種構(gòu)建農(nóng)田排水生態(tài)凈化系統(tǒng)的方法(發(fā)明專利),專利號(hào):ZL 201110036371.1;
29)一種在順直河道中構(gòu)建深潭淺灘的方法(發(fā)明專利),專利號(hào):ZL 201110040847.9;
30)中小順直河流縱向蜿蜒形態(tài)構(gòu)建方法(發(fā)明專利),專利號(hào):ZL 201110043723.6;
31)一種適用于水位變化水域的圓形可裝卸生態(tài)浮床(發(fā)明專利),專利號(hào):ZL 201010286852.3
實(shí)用新型
1)河流濱水帶生態(tài)砼凈化槽(實(shí)用新型),專利號(hào):ZL200520068277.4;
2)景觀式凈污組合型護(hù)坡空心砌塊(實(shí)用新型),專利號(hào):ZL200520068279.3;
3)景觀凈污組合型護(hù)坡實(shí)體砌塊(實(shí)用新型),專利號(hào):ZL200520068278.9;
4)植生型河道防滲砌塊(實(shí)用新型),專利號(hào):ZL200520068599.9;
5)景觀型多級(jí)階梯式人工濕地護(hù)坡系統(tǒng)(實(shí)用新型),專利號(hào):ZL200420054677.5;
6)一種凈化河流微污染水體的仿生植物(實(shí)用新型),專利號(hào):ZL200420054676.0;
主要論文論著:
1) 王超, 王沛芳, 侯俊, 錢進(jìn). 流域水資源保護(hù)和水質(zhì)改善理論與技術(shù). 北京: 中國(guó)水利水電出版社, 2011. (獲第四屆中華優(yōu)秀出版物獎(jiǎng)提名獎(jiǎng))
2) 王超, 王沛芳. 城市水生態(tài)系統(tǒng)建設(shè)與管理. 北京: 科學(xué)出版社, 2005.
3) Wang Peifang, Ao Yanhui, Wang Chao, Hou Jun, Qian Jin. Preparation of graphene-modified TiO2 nanorod arrays with enhanced photocatalytic activity by a solvothermal method. Materials Letters, 2013, 101: 41-43.
4) Wang Peifang, Ao Yanhui*, Wang Chao, Hou Jun, Qian Jin. A one-pot method for the preparation of graphene-Bi2MoO6 hybrid photocatalysts that are responsive to visible-light and have excellent photocatalytic activity in the degradation of organic pollutants. Carbon, 2012, 50(14): 5256-5264.
5) Wang Peifang, Ao Yanhui*, Wang Chao, Hou Jun, Qian Jin. Enhanced photoelectrocatalytic activity for dye degradation by graphene-titania composite film electrodes. Journal of Hazardous Materials, 2012, 223: 79-83
6) PeifangWang, Songhe Zhang*, Chao Wang, Jie Lu. Effects of Pb on the oxidative stress and antioxidant response in a Pb bioaccumulator plant Vallisnerianatans. Ecotoxicology and Environmental Safety, 2012, 78: 28-34
7) Peifang Wang, Muhan Cao,Yanhui Ao,Chao Wang, Jun Hou, Jin Qian. Investigation on Ce-doped TiO2-coated BDD composite electrode with high photoelectrocatalytic activity under visible light irradiation. Electrochemistry Communications , 2011(13):1423-1426
8) Peifang Wang, Chao Wang. Mumerical model for flow through submerged vegetation regions in a shallow lake. Journal of Hydrodynamics,2011, 23(2):170-178
9) Peifang Wang, Jiancheng Wu, Yanhui Ao, ChaoWang, Jun Hou, Jin Qian. Preparation and enhanced photocatalytic performance of Sn ion modified titania Hollow spheres. Materials Letters, 2011 (65) : 3278–3280
10) Peifang Wang, Chao Wang, David Zhu. Hydraulic resistance of submerged vegetation related to effective height. Journal of Hydrodynamics,2010,22(2):265-273
11) Peifang Wang, Ping OuYang, Chao Wang. Physiological responses of Vallisneria spiraslis L. induced by different hydraulic conditions when exposed to copper and nitrogen. African Journal of Biotechnology, 2011(38):7441-7452
12) Pei-fang Wang, Li Zhao, Chao Wang, Jun Hou, and Douglas J. Schnoebelen. Nitrogen Distribution and Potential Mobility in Sediments of Three Typical Shallow Urban Lakes in China. Environmental Engineering Science, 2009, 26(10): 1511-1521
13) Peifang Wang, Chao Wang, Xiaorong Wang. The effect of hydrodynamics on nitrogen accumulation and physiological characteristics of Vallisneria spiraslis L in eutrophicated water. African Journal of Biotechnology. 2008, 7 (14): 2424-2433
14) Peifang Wang, Chao Wang, Songhe Zhang. Study of heavy metal in sewage sludge and in Chinese cabbage grown in soil amended with sewage sludge, African Journal of Biotechnology. 2008, 87: 88-98
15) W. Peifang, and W. Chao. Nutrients Removing by Arrowheads in Different Growing Periods in the Transition Zone between Lands and Rivers. Water Resources, 2007, 34(4) : 471–477
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