Nabin Aryal

Nabin Aryal

Post doc

Fakultet for teknologi, naturvitenskap og maritime fag
Institutt for mikrosystemer
Campus Vestfold (G3-59)





1.      Aryal, N., Odde, M., Pedersen, C. B., Ottosen, L. D. M., & Kofoed, M. V. W. (2021). Methane production from syngas using a trickle-bed reactor setup. Bioresource Technology, 125183.

2.      Aryal, N. Ottosen L.M,  Michel W. & Pant D. (2021), Emerging Technologies and Biological Systems for Biogas Upgrading, 1st Edition, Elsevier, ISBN: 9780128228081

3.      N Aryal, LDM Ottosen, A Bentien, D Pant, MVW Kofoed. (2021), Bioelectrochemical systems for biogas upgrading and biomethane production, Elsevier, 363-382

4.      Adhikari, P., Aryal, N., Ghimire, A., & Khanal, P. (2021). Sustainable biowaste recycling using insects. In Clean Energy and Resources Recovery (pp. 399-420). Elsevier.

5.      Gadkari, S., Beigi, B. H. M., Aryal, N., & Sadhukhan, J. (2021). Microbial electrosynthesis: is it sustainable for bioproduction of acetic acid? RSC Advances, 11(17), 9921-9932.

6.      Gahlot, P., Ahmed, B., Tiwari, S. B., Aryal, N., Khursheed, A., Kazmi, A. A., & Tyagi, V. K. (2020). Conductive material engineered direct interspecies electron transfer (DIET) in anaerobic digestion: mechanism and application. Environmental Technology & Innovation, 101056.

7.      Niels RBK, Aryal, N*, (2020) Syngas production from straw gasification in different temperature profile, Fuel, 263, 116706

8.      Aryal N., Ghimire N, & Bajracharya S., (2020) Microbial electrochemical systems coupling with anaerobic digestion for waste valorization, Advances in bioenergy. Elsevier, 101-127

9.      Chettri R., Aryal N., Kharel S, Paudel RP & Pant, D., (2020). Agro-based industrial wastes as potent sources of alternative energy and organic fertilizers. Current Developments in Biotechnology and Bioengineering, 121-136

10.  Bajaracharya, S., Aryal N., Sonawane MJ, Kharel S., Sharma SR., &Pant, D., (2020). Prime techniques for post-treatment of anaerobic effluents and solids Environmental Microbiology and Biotechnology, 255-289

11.  Aryal, N., Wan, L., Overgaard, M. H., Stoot, A. C., Chen, Y., Tremblay, P. L., & Zhang, T. (2019). Increased carbon dioxide reduction to acetate in a microbial electrosynthesis reactor with a reduced graphene oxide-coated copper foam composite cathode.  Bioelectrochemistry 128 (2019): 83-93.

12.  Kvist, T, Aryal, N*., (2019), Methane loss from commercially operating biogas upgrading plants. Waste management, 87, 295-300

13.  Bajracharya S., Aryal N., De Wever H., Pant D. Bioelectrochemical Syntheses, (2019) An Economy Based on Carbon Dioxide and Water. Springer, An Economy Based on Carbon Dioxide and Water. Springer, 327-358

14.  Aryal, N., Kvist, T, Ammam, F., Pant D, & Ottosen L.M, (2018). An overview of Microbial Methanation. Bioresource Technology 264, 359-369

15.  Aryal, N. *, & Kvist, T. (2018). An alternative of Biogas Injection into the Danish Gas Grid System—A Study from Demand Perspective. ChemEngineering, 2(3), 43.

16.  Aryal, N., Tremblay, P. L., Xu, M., Daugaard, A. E., & Zhang, T. (2018). Highly conductive poly (3, 4-ethylenedioxythiophene) polystyrene sulfonate polymer-coated cathode for the microbial electrosynthesis of acetate from carbon dioxide. Frontiers in Energy Research, 6, 72.

17.  Aryal, N., Ammam F., Patil S., Pant D., (2017) Overview of electrode materials used in Carbon dioxide in microbial electrosynthesis Green Chemistry,  2017, 19, 5748-5760

18.  Aryal, N., Halder, A., Zhang, M., Whelan, P. R., Tremblay, P. L., Chi, Q., & Zhang, T. (2017). Freestanding and flexible graphene papers as bioelectrochemical cathode for selective and efficient CO2 conversion. Scientific Reports,7

19.  Aryal, N., Tremblay, P. L., Lizak, D. M., & Zhang, T. (2017). Performance of different Sporomusa species for the microbial electrosynthesis of acetate from carbon dioxide. Bioresource Technology, 233, 184-190

20.  Aryal, N., Halder, A., Tremblay, P. L., Chi, Q., & Zhang, T. (2016). Enhanced microbial electrosynthesis with three-dimensional graphene functionalized cathodes fabricated via solvothermal synthesis. Electrochimica Acta217, 117-122 .

21.  Lepage ,G., Perrier, G., Merlin, G., Aryal, N., & Dominguez-Benetton, X. (2014). Multifactorial evaluation of the electrochemical response of a microbial fuel cell. RSC Advances,4(45), 23815-23825.

22.  Sharma, M, Aryal N., Priyangshu S., Vanbroekhoven K., Lal B., Dominguez-Benetton X., Pant D. (2013). Bioelectrocatalyzed reduction of acetic and butyric acids via direct electron transfer using a mixed culture of sulfate-reducers drives electrosynthesis of alcohols and acetone. Chemical Communications. DOI: 10.1039/c3cc42570

23.  Gupta, D.K., Huang, H.G., Nicoloso, F.T., Schetinger, M.R., Farias, J.G., Li, T.Q., Razafindrabe, B.H.N., Aryal, N. and Inouhe, M., (2013). Effect of Hg, As, and Pb on biomass production, photosynthetic rate, nutrients uptake and phytochelatin induction in Pfaffia glomerata. Ecotoxicology, 22(9), pp.1403-1412