Publications

Publications

  • Abu-Reesh, M. and Kargi, F.: Biological responses of hybridoma cells to defined hydrodynamic shear stress. J. of  Biotechnology Vol. 9, (1989) 167-178.
  • Abu-Reesh, M. and Kargi, F.: Biological responses of hybridoma cells to hydrodynamic shear in an agitated bioreactor. Enzyme and Microbial Technology Vol. 13, (1991) 913-919
  • Abu-Reesh, I.M. and Faqir, N.: Simulation of glucose isomerase reactor: Optimum operating temperature.  Bioprocess Engineering. 14 No. 4 (1996) 205-210.
  • Abu-Reesh, M.: Optimal design of CSTR’s in series using reversible Michaelis-Menten reactions. Bioprocess Engineering. Vol. 15 No.5 (1996) 257-264.
  • Aburas, R.; Hammad, M. A.; Hiary, S. E.; Qousous, S. and Abu-Reesh, M : Construction and operation of a demonstration biogas plant, problems and prospects. Energy Conversion and Management Vol. 37, No. 5 (1996) 611-614.
  • Abu-Reesh, M: Predicting the performance of immobilized enzyme reactors using reversible Michaelis-Menten kinetics. Bioprocess Engineering. Vol. 17, No. 3 (1997) 131 – 137
  • Al-Natour, K.A.; Abu-Reesh, M.: Effect of substrate and product concentration on ethanol yield of Labaneh whey fermentation by Kluyveromyces fragilis. DIRASAT. University of Jordan. Vol. 23 No.3. Natural and Engineering Science (Oct. 1996) 336-350.
  • Haddadin, M.S.; Abu-Reesh, M.; Al-Qaissiah, O.A. and Robinson R.K.: The Olive, (Olea europaea)-benefits and problems of commercial production. Agriculture & Equipment International. 49(2) (1997) 76-78.
  • Al-Natour, K.A.; Abu-Reesh, M.: Effect of cell immobilization on ethanol yield of Labaneh whey fermentation by Kluyveromyces fragilis. DIRASAT. The University of Jordan Vol. 24, No. 1, Natural and Engineering. Science (Feb. 1997) 38-50.
  • Becker, P; Abu-Reesh, M.; Markossian, S.; Antranikian, G.; Markl, H.: Determination of the kinetic parameters during continuous cultivation of the lipase producing thermophile Bacillus sp. IHI-91 on olive oil. Applied Microbiology and Biotechnology. Vol .48 No.2 (1997) 184 – 190.
  • Faqir, N.M.; Abu – Reesh, I. M.: Optimum temperature operation mode for glucose isomerase reactor operating at constant glucose conversion. Bioprocess Engineering. Vol 19, No.1 (1998) 11-17.
  • Abu-Reesh, I. M. : Optimal design for CSTR’s in series performing enzymatic lactose hydrolysis. Bioprocess Engineering. 23(6)(2000)709-713.
  • Haddadin, M.S.Y; Abu-Reesh,I.M ;Haddadin F.A.S and Robinson,R.K.: Utilization of tomato pomace as a substrate for the production of vitamin B12– a preliminary appraisal. Bioresource Technology. 78(2001)225-230.
  • Arafat,H.A. and Abu-Reesh,I.M.: Ultrafiltration of Labaneh whey : Effect of operating parameters. The Arabian J. for Science and Engineering. Vol. 26,No 2C (2001) 55-67.
  • Haddadin M. S. Y. ; Abu-Reesh, I.M. ;Haddadin,F.T.S ;.Abu Al-Rub,M.T. and Robinson,R.K. “ Aspects of the Economic Utilization of Waste Materials from Tomato Processing” Recent Res. Devel. Agricultural & Food Chem. 5(2001) 113-123.
  • Abu-Fara,D.I.; Abu-Reesh,I.M. and Attarakih,M.. “ Effect of the Type of Input on the Periodic Operation of a Bioreactor with Input Multiplicities”. Mu’tah Lil-Buhuth wad- Dirasat. 18(3) (2003) 57-74.
  • Abu-Reesh,I.M., and Abu-Sharkh,B.F.” Comparison of axial dispersion and tanks-in-series models for simulating the performance of enzyme reactors”. Industrial & Engineering Chemistry Research. Vol 42, No 22( 2003) 5495-5505.
  • Abu-Reesh, I.M. : Optimal design of chemostats connected in series with microbial wall growth. Chemical & Biochemical Engineering Quarterly. 18(2)(2004) 167-175.
  • Al-Muftah,A.E. and Abu-Reesh, M. : Effects of external mass transfer and product inhibition on a simulated immobilized enzyme-catalyzed reactor for lactose hydrolysis. Eng. Life Sci. 4(4)(2004) 326-340.
  • Al-Muftah,A.E. and Abu-Reesh, I.M. : Effects of internal mass transfer and product inhibition on a simulated immobilized enzyme-catalyzed reactor for lactose hydrolysis. Eng. J. 23(2005)139-153.
  • Al-Muftah,A.E. and Abu-Reesh, M. : Effects of simultaneous internal and external mass transfer and product inhibition on immobilized enzyme-catalyzed reactor. Biochem. Eng. J. 27(2005) 167-178.
  • Abu-Reesh,M. : Optimal design of continuous stirred membrane reactors in series using Michaelis-Menten kinetics with competitive product inhibition. Desalination 180 (2005) 119-132.
  • Haddadin M. S. Y.; Abou –Arqoub A.; Abu-Reesh, I.M. ;Haddadin J.: Kinetics of hydrocarbon extraction from oil shale using biosurfactant producing bacteria. Energy Conversion & Management 50(2009)983-990.
  • Abu-Reesh, I.M . Optimal design of multi-stage bioreactors for degradation of phenolic industrial wastewater: Theoretical analysis. Journal of Biochemical Technology 2(3)(2010)175-181.
  • Abu Reesh,I. M. and Alnaizy, R. : Optimal design of multi-stage bioreactors performing wastewater treatment using Matlab optimization function (fmincon). J. Environmental Eng. 6(4)(2014)403-414.
  • Abu Reesh, I.M. : Kinetics of anaerobic digestion of labaneh whey in a batch reactor. African Journal of Biotechnology 13(16)(2014) 1745-1755.
  • Lu, Y.; Qin, M.; Yuan, H. ; Abu Reesh, I.M. and He, Z: When bioelectrochemical systems meet forward osmosis : Accomplishing wastewater treatment and reuse through synergy. Water 7(1)(2015)38-50.
  • Hawari A.; Ramadan H.; Abu Reesh I. and Ouederni : A comparative study of the treatment of ethylene plant spent caustic by neutralization and classical and advanced oxidation. Journal of Environmental Management 151(2015)105-112.
  • Yuan, H. ; Abu Reesh I. M. and He Z. : Enhancing desalination and wastewater treatment by coupling microbial desalination cells with forward osmosis. Chemical Engineering Journal 270(2015)437-443.
  • Sevda , S. ; Yuan , H; He, Z and Abu Reesh, I.M. : Microbial desalination cells as a versatile technology: Function, optimization and prospective. Desalination 371(2015) 9-17.
  • Yuan, H. ; Lu, Y ; Abu Reesh , I.M. and He, Z. : Bioelectro chemical production of hydrogen in an innovative pressure-retarded osmosis/ microbial electrolysis cell system: Experiments and modeling . Biotechnology for Biofuels 8(2015)1-12.
  • Li, X. ; Abu Reesh, I.M.  and He, Z. : Development of bioelectrochemical systems to promote sustainable agriculture. Agriculture 5(3)(2015) 367-388.
  • Qin M. , Ping , Lu  Y., Abu-Reesh I. M., He Z . “Understanding electricity generation in osmotic microbial fuel cells through integrated experimental investigation and mathematical modeling”. Bioresource Technology, 195(2015)194-201.
  • Ping, Q., Abu-Reesh, I.M. and He “Boron removal from saline water by a microbial desalination cell integrated with Donnan dialysis”. Desalination, 376(2015) 55-61.
  • Singh, A.: Sevda, S. : Abu Reesh, I. M. ,Vanbroekhoven, K. : Rathore, D and Pant, D. : “Biohydrogen production from Lignocellulosic Biomass : Technology an Sustainability”. Energies, 8(2015)1-19.
  • Abdelrahman, O. and Abu Reesh, I.M. : Application of spreadsheet optimization capabilities in the design of N-continuous stirred tank bioreactors connected in series. Journal of Undergraduate Research-Science, Engineering & Technology. QScience.com – Qatar Foundation. Accepted Dec 16, 2015.
  • Yuan, H., Abu Reesh, I. M., He Z.: Mathematical modeling assisted investigation of forward osmosis as pretreatment for microbial desalination cells to achieve continuous water desalination and wastewater treatment. Journal of Membrane Science, 502(2016)116-123.
  • Lu, Y.; Abu Reesh, I.M. and He, Z. : Treatment and desalination of domestic wastewater for water reuse in a four–chamber microbial desalination cell. Environmental Science and Pollution Research. 23(2016)17236-17245.
  • Yuan, H.; Hou, Y. ; Abu Reesh, I.M ;Chen, J. and He, Z. : Oxygen reduction reaction catalyst used in microbial fuel cells for energy-efficient wastewater treatment : a review. Materials Horizons. 3(5)(2016)382-401.
  • Ping, Q. ; Abu Reesh, I.M. and He, Z. : Enhanced boron removal by electricity generation in a microbial fuel cell. Desalination 389(2016)165-170.
  • Ping, Q. ; Abu Reesh, I.M. and He, Z. : Mathematical modeling based evaluation and simulation of boron removal in bio electrochemical systems. Science of the Total Environment. 569-570(2016)1380-11389.
  • Yuan, H.; Miller, J.H. ;Abu Reesh, I.M. ; Pruden, A. and He, Z. : Effects of electron acceptors on removal of antibiotic resistant Escherichia coli, resistant genes and class 1 integrons under anaerobic conditions. Science of the Total Environment. 569-570(2016)1587-1594.
  • Kumar, A. ; Bhosale, R.R.; Malik, S.S. ;Abusarfa, A.E. ; Saleh, M. A. H. ;Ghosh, U. K. ; Al-Marri, M. J. ; Almomani, F.A. ; Khader, M. M. and Abu-Reesh, I.M.: Thermodynamic investigation of hydrogen enrichment and carbon suppression using chemical additives in ethanol dry reforming. International Journal of Hydrogen Energy 41(34)(2016)15149-15157.
  • Qin, M. Abu Reesh, I.M. and He, Z. : Effects of current generation and electrolyte pH on reverse salt flux across thin film composite membrane in osmotic microbial fuel cells. Water Research. 105(2016)583-590.
  • Sevda, S.; Abu Reesh, I.M.; Heyang, Y. and He, Z. : Bioelectricity generation from treatment  of petroleum refinery wastewater with simultaneous seawater desalination in microbial desalination cells. Energy Conversion and Management (Special issue: Sustainable Biofuels). 141(2017)101-107.
  • Ashfag, M.Y. ; Wang, T.; Qiblawey, H. ; Abu Reesh, I.M. and Judd S. : Recycling of hospital laundry wastewater using membrane technology. Desalination and Water Treatment. 60( 2017)122-128.
  • Sevda, S. ; Bhattacharya,S.; Abu Reesh, I.M. ; Bhuvanesh, S. and Sreekrishnan, TR. : Challenges in the design and operation of an efficient photobioreactor for microalgae cultivation In Biohydrogen Production: Sustainability of current technology  and future prospective. Springer India, 2017, 147-162.
  • Qin M.; Hynes E. A.; Abu Reesh, I.M. and He Z : Ammonium removal from synthetic wastewater promoted by current generation and water flux in an osmotic microbial fuel cell.  Journal of Cleaner Production 149(April 2017)856-862.
  • Yuan H. ; Sun S.; Abu Reesh, I. M. ;Badgley B. D. and He, Z. : Unravelling and reconstructing the nexus of salinity, electricity and microbial ecology for bioelectrochemical desalination. Sci. Technol. 51(2017)12672-12682.
  • Gunda M; Abu Reesh I. M. ; Al-Raoush R.I. and He Z. :  Cylindrical graphite based microbial fuel cell for the treatment of industrial wastewaters and bioenergy generation. Bioresource Technology 247(Jan 2018)753-758.
  • Sevda S. and Abu Reesh, I. M. : Energy production in microbial desalination cells and its effects on desalination. Journal of Energy and Environmental Sustainability 3(2017)71-76.
  • Sevda S. and Abu Reesh, I. M. : Improved salt removal and power generation in a cascade of two hydraulically connected flow-microbial desalination cells. Journal of Environmental Science and Health,Part A.: Toxic/Hazardous substances & Environmental engineering. 53(4)(2018) 326-337.
  • Gunda M; Abu Reesh I. M. ; Kondaveeti, S. ; Al-Raoush R.I. and He Z. :  Enhanced treatment of petroleum refinery wastewater by short-term applied voltage in a single chamber microbial fuel cell. Bioresource Technology special issue on microbial electrochemical technology. 253( 2018)16-21.
  • Surajbhan Sevda, Abu –Reesh, I.M. Effect of the organic load on the salt removal efficiency of microbial desalination cell. Desalination and Water Treatment. 108(2018) 112-118.
  • Gunda, M.; Abu Reesh, I and Al-Raoush,R. Biological anodic oxidation and cathodic reduction reactions for improved bioelectrochemical treatment of petroleum refinery wastewater. Journal of Cleaner Production 190(2018) 44-52.
  • Gunda, M.; Al-Raoush, R and Abu Reesh, I. Induced bioelectrochemical metabolism for bioremediation of petroleum refinery wastewater : Optimization of applied potential and flow of wastewater. Bioresource Technology 260(2018) 227-232.
  • Sevda Surajbhan; Sharma Swati; Joshi Chetan; Pandey Lalit; Tyagi Namarata; Abu Reesh I. and Sreekrishnan T.R. Biofilm formation and electron transfer in bioelectrochemical systems. Environmental Technology Reviews. 7(1)(2018)220-234.
  • Zhang, J;Yuan,H.;Deng,Y.;Zha,Y.; Abu Reesh,I.M.;He,Z.and Yuan,C. : Life cycle assessment of a microbial desalination cell for sustainable wastewater treatment and saline water desalination. Journal of Cleaner Production. 200(2018)900-910.
  • Sevda S. and Abu Reesh, I. M. : Improved petroleum refinery wastewater treatment and seawater desalination performance by combining osmotic microbial fuel cell and up-flow microbial desalination cell. Environmental Technology. 40(7)(2019)888-895.
  • Gunda, M. ; Kondaveeti S. ; Desale , P. ; El-Mekawy, A. and Abu Reesh I. Enzymatic electrosynthesis toward value addition (Book chapter). In Microbial Electrochemical Technology: sustainable platform for fuel, chemicals and remediation biomass, biofuel and biochemical, Elsevier. (2019) 955-973.
  • Gunda, M.; Al-Raoush, R. ;Abu Reesh, I.M. and Aljaml, K. : Removal of petroleum hydrocarbons and sulfates from produced water using different bioelectrochemical reactor configurations. Science of the Total Environment. 665(2019)820-827.
  • Kondaveeti, S. ; Abu Reesh I. M. ; Gunda, M.; Pant, D. and He, Z. : Utilization of residual organics of Labaneh whey for renewable energy generation through bioelectrochemical processes : Strategies for enhanced substrate conversion and energy generation. Bioresource Technology.  286 (2019)121409.
  • Zhang, J ; Yuan, H. ; Deng, Y. ; Abu Reesh, I.; He, Z. and Yuan, C. : Life cycle assessment of osmotic microbial fuel cells for simultaneous wastewater treatment and resource recovery. The International Journal of Life Cycle Assessment. Online May 9, 2019.
  • Gunda, M.; Al-Raoush, R. ;Abu Reesh, I.M. and Pant, D. : Microbial fuel cell configured for the remediation of recalcitrant pollutants in soil environment. RSC Advances, 9 (2019) 41409-18.
  • Zhang, J ; Yuan, H. ; Abu Reesh, I.; He, Z. and Yuan, C. : Life cycle environmental impact comparison of bioelectrochemical systems for wastewater treatment. Procedia CIRP . 80 ( 2019) 382-388.
  • Kadier, A. ; Jain, P. ; Kalil, M. S. ; Condaveeti, S. ; Abu Reesh, I. M. ; Gunda, M. Biorefinery perspectives of microbial electrolysis cells (MECs) for hydrogen and valuable chemical production through wastewater treatment. Biofuel Research 7(1) (2020)1128-1142.
  • Gunda, M.; Abu Reesh I. M. ; Vanbroekhoven, K.; Pant, D. : Microbial electrosynthesis feasibility evaluation at high bicarbonate concentrations with enriched homoacetogenetic biocathode. Science of the Total Environment. 715 (May 1st , 2020)137003.
  • Kondaveeti, S. ; Abu-Reesh, I.M ; Gunda, M. ; Bulut, M. and Pant, D. Advanced routes of biological and bio-electrocatalytic carbon dioxide (CO2) mitigation toward carbon neutrality. Frontiers in Energy Research. 8 (June 2020) article 94.
  • Gunda, M.; Al-Raoush, R. ; Abu Reesh, I.M. Sewage-enhanced bioelectrochemical degradation of petroleum hydrocarbons in soil environment through bioelectro-stimulation. Biotechnology Reports. 27(Sep. 2020) e00478.
  • Abu-Reesh, I. M. Single-and multi-objective optimization of a dual-chamber microbial fuel cell operating in continuous-flow mode at steady state. Processes 8 (July 2020) 839.
  • Gunda, M.; Abu Reesh, I.M. ; Pant, D. Enhanced bioelectrochemical treatment of petroleum refinery wastewater with Labaneh whey as co-substrate. Scientific Reports. 10(2020) 19665.
  • Gunda, M.; Al-Raoush, R.; Abu Reesh, I.M. Integrating electrochemical and bioelectrochemical systems for energetically sustainable treatment of produced water. 285(Feb 1st 2021) 119104.
  • Kondaveeti, S; Lankamsetty, KB. ; Modigunta, JKR; Abu-Reesh,I. M. ; Al-Raoush, R. and Gunda, M. Impact of electric and magnetic fields on power generation in microbial fuel cells (MFCs) treating food waste leachate. Water Process Engineering 40(2021) 101841.
  • Abu Reesh, I. M. Acrylonitrile Process Enhancement through Waste Minimization: Effect of Reaction Conditions and Degree of Backmixing. Sustainability 13(14) (2021) 7923.
  • Abu Reesh, I. M. Optimum design of N continuous stirred-tank bioreactors in series for fermentation processes based on simultaneous substrate and product inhibition. Processes 9 (8) (2021) 1419.
  • Ashok, A., Yuda, A., Abu-Reesh, I. M., Kumar, A. (Dec 25, 2021). Double-Walled Carbon Nanotubes: Synthesis, Sorting, and Applications. In Abraham, J., Thomas, S. ,Kalarikkal, N. (eds). Handbook of carbon nanotubes. Springer Nature.

Conferences, Panel meetings, Presentations

  • Engineering Foundation conference on cell culture Engineering. Palm Coast, Florida, USA. Jan 31-Feb. 5, 1988. Biological responses of hybridoma cells to defined hydrodynamic shear.
  • AIChE annual meeting and BiochemE, Washington DC, Nov 27-Dec 2, 1988. Shear Sensitivity of hybridoma cells to hydrodynamic shear.
  • Potential applications of biotechnology in Food industry in the Arab World. Presented to the Arab biotechnology group meeting, December 14-16, 1991, Amman, Jordan.
  • Abu-Reesh, M.: Large scale production of Monoclonal Antibodies by Invitro hybridoma culture. The Second Arab Conference on perspectives of modern biotechnology, 24-28 April, 1993, Amman, Jordan.
  • Markossian,S.; Becker,P.; Abu-Reesh,I.M.; Antranikian,G.; Markl,M.: VAAM Spring Conference. March 24-27 (1996), Bayreuth, Germany: Published in “BIOSPEKTRUM” Special Edition March /1996: Production and Characterization of thermoactive lipolytic enzymes.
  • Becker,P.; Markossian,S.;Abu-Reesh,I.M.; Dilsen,S.; Antranikian,G.; Markl,H.: First international congress on Extremophiles. Estoril, Portugal 2-6 June 1996: Continuous cultivation of a newly isolated lipolytic Bacillus thermoleovorans and treatment of lipid-rich industrial effluents.
  • Abu-Reesh, M. : Scale-up of bioreactors: The Arab union of the manufacturers of Pharmaceuticals and Medical Applications. Symposium on Pharmaceutical Biotechnology, May 14-15 (1997) Amman, Jordan.
  • The international congress on membranes and membrane processes (ICOM 2002) Toulouse, France 7-12 July 2002.
  • Abu-Reesh, M. and Al-Muftah ,A.E. : Predicting the performance of immobilized enzyme reactors performing lactose hydrolysis : Analysis and simulation. Jordan International Chemical Engineering Conference (IV). Amman , 22-24 Sep 2002.
  • Waziri, S.M.; Abu-Sharkh, B.F.; Ali, S.A. and Abu-Reesh, I.M. “ Aqueous two- phase systems containing a polyampholyte and poly(ethylene glycol) : Studies on phase behavior”. The Sixth Saudi Engineering Conference.14-16 Dec. 2002.KFUPM, Dhahran, Saudi Arabia.
  • Abu-Reesh,I.M. ; Gildemeister,R. and Kraume,M. : Greywater treatment and modeling in a submerged membrane sequencing batch reactor (SM-SBR) First Conference on Environmental Management, Engineering, Planning and Economics (CEMEPE 2007) Skiathos island, Greece . June 24-28 2007. Vol III, pp 2243-2249.
  • Abu-Reesh,I.M. :Optimal  design  of  multi-stage bioreactors  for  degradation of  phenolic  industrial wastewater: Theoretical  analysis. The Third International Conference on Modeling, Simulation and Applied Optimization. American University of Sharjah ,Sharjah,U.A.E January 20-22 , 2009.
  • Abu-Reesh,I.M : Application of third-order polynomial approximate solution to enzymatic glucose isomerization and lactose hydrolysis reactions. Proceedings of the Fourth International Conference on Modeling, Simulation and Applied Optimization, Kuala Lumpur, Malaysia , April 19-21, 2011
  • Abu-Reesh, I.M. ; Gildemeister,R. and Kraume,M. : Modeling of Greywater treatment in a submerged membrane sequencing batch reactor (SM-SBR) . Joint Qatar Foundation Annual Research Forum and Arab Expatriate Scientists Network Symposium. 21-23 , 2012 (poster).
  • Abu-Reesh, I.M. : Application of Matlab optimization capabilities in the design of N-continuous stirred tank bioreactors connected in series. Proceeding of the World Congress on Engineering Education 2013, Doha, Qatar 7- 9 Jan. 2013.
  • Abu-Reesh , I.M. : Production of methane by anaerobic digestion of Labaneh Whey. The 10th Natural Gas Conversion Symposium , Doha, Qatar , 2-7 March 2013 (Poster).
  • Ibrahim, S.K. ;Boulifa, B. ;Jaoua, A.; Elloumi, S; Saleh, M; Van Den Broeke, L.J.P. and Abu Reesh, I.M. : Fault tolerant approach for verified software : Case of natural gas purification simulator. 2013 Conference on Control and Fault –Tolerant Systems (Sys Tol) . Oct 9-11,2013. Nice, France. pp 222-227.
  • Ibrahim, S.K. ;Boulifa, B. ;Elloumi, S; Jaoua, A. ; Saleh, M; Van Den Broeke, L.J.P. and Abu Reesh, I.M. : Natural fault tolerance in the context of a goal oriented software design : The case of natural gas purification simulator. Proceeding of the 4th IEEE international conference on software engineering and services, ICSESS 2013, Beijing. China . May 23-25,2013. pp-279-282.
  • Surajbhan Sevda; Zhen He and Ibrahim Abu Reesh. Microbial desalination cell : A sustainable approach for brackish water desalination and wastewater treatment with bioelectricity generation. Oral presentation , ARC-14 , Qatar Foundation, annual research conference, Doha 18-19 Nov 2014.
  • Yaobin Lu, Mohan Qin, Heyang Yuan, Ibrahim M. Abu-Reesh, Zhen He. When Bio electrochemical Systems Meet Forward Osmosis: Accomplishing Wastewater Treatment and Reuse through Synergy. Oral presentation; 2015 ISMET fifth International Meeting on Microbial Electrochemistry and Technologies. Tempe, AZ, USA.
  • Surajbhan Sevda, Zhen He, Ibrahim Abu-Reesh. Microbial desalination cell and their development. 2ndInternational Conference on Desalination and Environment, 23 – 26th Jan 2016, Doha, Qatar (Oral presentation).
  • Surajbhan Sevda, Ibrahim Abu-Reesh and Zhen He. Evolution of seawater desalination and petroleum refinery wastewater treatment in a microbial desalination cell.Qatar Foundation Annual Research Conference 2016 (ARC’16) , 22-23 March,2016 , Doha, Qatar (Oral presentation).
  • Surajbhan Sevda, Ibrahim Abu-Reesh and Zhen He. Microbial Desalination Cell: An Integrated approach for wastewater treatment and desalination systems for sustainable water desalination and wastewater treatment.Qatar Foundation Annual Research Conference 2016 (ARC’16), 22-23 March, 2016. Doha, Qatar (Poster).
  • Mohan Qin, Ibrahim M. Abu-Reesh, Zhen He. Effects of Bioelectricity Generation and Electrolyte pH on Reverse Salt Flux across Thin Film Composite Membrane in Osmotic Microbial Fuel Cells. 3rd Meeting of the North American branch of the ISMET. October 5-7, 2016, Stanford, CA.
  • Heyang Yuan, Jennifer H. Miller, Ibrahim M. Abu-Reesh, Amy Pruden, and Zhen He. Effects of Electron Acceptors on the Removal of Antibiotic Resistant Bacteria and Resistance Genes in Bioelectrochemical Systems. 3rd Meeting of the North American branch of the ISMET. October 5-7, 2016, Stanford, CA.
  • Gunda, M.; Al-Raoush, R ; Kondaveeti, S. and Abu Reesh, I. Wastewater and pollutants generating from petroleum industries for value addition through bioelectrochemical systems (BES). 4th International Conference on Alternative Fuels , Energy and Environment (ICAFEE): Future and Challenges . 18-21 Oct. 2019 (Poster).
  • Al-Raoush, R ; Gunda, M.; and Abu Reesh, I. Integrating electrochemical and bioelectrochemical systems for an energetically sustainable treatment of produced water (PW). 4th International Conference on Alternative Fuels , Energy and Environment (ICAFEE): Future and Challenges . 18-21 Oct. 2019 (Poster).
  • Gunda, M.; Al-Raoush, R and Abu Reesh, I. Bioelectrochemical cells (BES) for elecrogenesis and bioelectrochemical treatment of petroleum based hydrocarbons contaminated soils. 4th International Conference on Alternative Fuels , Energy and Environment (ICAFEE): Future and Challenges . 18-21 Oct. 2019 (Invited Lecture).
  • Gunda, M.; Al-Raoush, R and Abu Reesh, I. Bioanodic activity stimulation by simple organics addition (Sewage and Acetate ) in soil microenvironment for recalcitrant pollutants degradation. 4th International Conference on Alternative Fuels , Energy and Environment (ICAFEE): Future and Challenges . 18-21 Oct. 2019 (Oral presentation ).
  • Yuan, H. ; Abu-Reesh, I. M. ; Badgley, B. ; He , Z. and Sun, S. Use machine learning to predict the microbial community and system performance during bioelectrochemical desalination. The 259th ACS National meeting & Exposition. Philadelphia , PA,USA March 22-26,2020.
  • Yuda, A; Kumar, A.; Abu-Reesh, I. M . Electro-oxidation of methanol on Ag, AgNi and AgCo catalysts prepared by combustion synthesis technique. 2nd international electronic conference on catalysis sciences-A celebration of catalysts 10th anniversary. Electro catalysis section (15-30 Oct. 2021) Online . Accepted abstract 9 August 2021.