BACKGROUND: Generally, ammonia occurs from agricultural waste disposal. Ammonia is known as a harmful substance to the human body and has a bad influence such as eutrophication on the ecosystem. It is possible to remove the ammonia by ammonia adsorption method using natural zeolite, without external influence. However, due to the natural zeolite shape, it is hard to reuse.
METHODS AND RESULTS: Electrospinning method can produce fiber with constant diameter. Moreover, electrospinning method has no limitation for selecting the material to make the fiber, and thus, it is valuable to reform the surface of adsorbent. In this study, reusable membrane was made by electrospinning method. The highest removal efficiency was shown from the membrane with 20% of zeolite included, and it has been verified that it is possible to reuse the membrane through chemical treatment. The highest ammonia removal efficiency was about 92.4%.
CONCLUSION: In this study, ammonia adsorption characteristics of zeolite fibers were studied. Electrospinning method can produce zeolite fiber with even distribution. Ammonia can be removed efficiently from ion exchange ability of the natural zeolite. The result of adsorption isotherm indicated that both Freundlich model and Langmuir model provided the best fit for equilibrium data. And study on desorption has demonstrated that the ion exchange from zeolite was reversible when 0.01 M NaCl and KCl solution were used.

1 백주헌, "호소수내 암모니아성 질소 및 인 동시 제거를 위한 란탄-제올라이트 복합체 개발" 대한환경공학회 32 (32): 761-766, 2010

2 김지형, "탄광배수슬러지를 이용한 산성광산배수 중의 Cu(II) 흡착: 흡착평형 및 흡착속도 모델링" 한국폐기물자원순환학회 25 (25): 709-715, 2008

3 윤창복, "천연 제올라이트의 분말도와 치환율이 시멘트모르타르의 화학반응 및 물리적 특성에 미치는 영향에 관한 연구" 한국구조물진단유지관리공학회 24 (24): 96-103, 2020

4 이창한, "제주 화산석으로 합성한 제올라이트를 Polyacrylonitrile에 고정화한 흡착제를 이용한 구리와 스트론튬 이온의 제거" 한국환경과학회 27 (27): 1215-1226, 2018

5 서정범, "암모니아 스트리핑에 미치는 운전인자의 영향" 대한환경공학회 28 (28): 935-939, 2006

6 정우진, "비점오염원 처리를 위한 혼합여재의 개발 및 흡착 Kinetic 연구" 한국지반환경공학회 13 (13): 37-44, 2012

7 김지숙, "미생물 고정화 담체 적용을 통한 통합 반류수 질소 처리" 대한환경공학회 41 (41): 191-195, 2019

8 장재경, "단일반응기에서 마이크로버블-산소를 이용한 가축분뇨의 유기오염물질, 질소 및 인의 동시 제거" 대한환경공학회 39 (39): 599-606, 2017

9 최한민, "농업부문 비료사용 농경지의 암모니아 배출량 산정방법 개선" 한국기후변화학회 10 (10): 237-242, 2019

10 장재경, "가축분뇨의 마이크로버블과 촉매와의 반응 시간 증가에 따라 질소 제거에 미치는 영향" 대한환경공학회 37 (37): 578-582, 2015

11 Feng CY, "Volatile organic compound removal by membrane gas stripping using electro-spun nanofiber membrane" 287 : 98-102, 2012

12 Kang DH, "Surface energy characteristics of zeolite embedded PVDF nanofiber films with electrospinning process" 387 : 82-88, 2016

13 Yunier GB, "Step-wise dealumination of natural clinoptilolite:Structural and physicochemical characterization" 135 (135): 187-196, 2010

14 Sarioglu M, "Removal of ammonium from municipal wastewater using natural Turkish (Dogantepe) zeolite" 41 (41): 1-11, 2005

15 Widiastuti N, "Removal of ammonium from greywater using natural zeolite" 277 (277): 15-23, 2011

16 Li Y, "Preparation of immobilized lipase by modified polyacrylonitrile hollow membrane using nitrile-click chemistry" 274 : 9-17, 2019

17 Feng C, "Preparation and characterization of electrospun nanofiber membranes and their possible applications in water treatment" 102 : 118-135, 2013

18 Wang S, "Natural zeolites as effective adsorbents in water and wastewater treatment" 156 (156): 11-24, 2010

19 최희정, "Mg으로 개질한 Zeolite를 이용하여 염색공장 폐수처리 평가" 한국물환경학회 31 (31): 392-398, 2015

20 Kaur S, "Influence of electrospun fiber size on the separation efficiency of thin film nanofiltration composite membrane" 392-393 : 101-111, 2012

21 Shakura HR, "Highly selective and effective removal of uranium from contaminated drinking water using a novel PAN/AgX/ZnO nanocomposite" 234 : 257-266, 2016

22 He W, "Fabrication of zeolite NaX-doped electrospun porous fiber membrane for simultaneous ammonium recovery and organic carbon enrichment" 603 : 118030-, 2020

23 Eslami Farsani R, "FT-IR study of stabilized PAN fibers for fabrication of carbon fibers" 50 : 430-433, 2009

24 Jing L, "Electrospun polyacrylonitrile–ionic liquid nanofibers for superior PM2.5 capture capacity" 8 (8): 7030-7036, 2016

25 Zhang D, "Electrospun polyacrylonitrile nanocomposite fibers reinforced with Fe3O4 nanoparticles: Fabrication and property analysis" 50 (50): 4189-4198, 2009

26 Zendelska A, "Characterization and application of clinoptilolite for removal of heavy metal ions from water resource" 32 (32): 21-32, 2018

27 Kallo D, "Applications of natural zeolites in water and wastewater treatment" 45 (45): 519-550, 2001

28 Koon JH, "Ammonia removal from municipal wastewaters by ion exchange" 47 (47): 448-465, 1975

29 Roberto LR, "Ammonia exchange on clinoptilolite from mineral deposits located in Mexico" 79 (79): 651-657, 2004

30 Lee HJ, "Adsorption Property of Water Vapor on the Modified Natural Zeolite" 21 (21): 643-651, 1999

31 Moon JM, "A study on ammonia removal properties using clinoptilolite Part 1: characterization of clinoptilolite and ammonia removal properties in batch reactor" 38 (38): 282-287, 2000

32 Kwang-Hwa Jeong, "A Study on the Characteristics of Livestock Manure Treatment Facility in Korea" Korea Organic Resource Recycling Association 22 (22): 28-44, 2014