High efficient conversion of Cannabis sativa L. biomass into bioenergy by using green tungsten oxide nano-catalyst towards carbon neutrality

被引:44
作者
Abbasi, Tehreem Usman [1 ]
Ahmad, Mushtaq [2 ,8 ]
Asma, Maliha [1 ]
Rozina [2 ]
Munir, Mamoona [2 ,3 ]
Zafar, Muhammad [2 ]
Katubi, Khadijah Mohammedsaleh [4 ]
Alsaiari, Norah Salem [4 ]
Yahya, Adel E. M. [5 ]
Mubashir, Muhammad [6 ]
Chuah, Lai Fatt [7 ,8 ]
Bokhari, Awais [8 ]
机构
[1] Int Islamic Univ, Dept Environm Sci, Islamabad, Pakistan
[2] Quaid I Azam Univ, Dept Plant Sci, Islamabad 45320, Pakistan
[3] Rawalpindi Women Univ, Dept Bot, Rawalpindi, Pakistan
[4] Princess Nourah Bint Abdulrahman Univ, Coll Sci, Dept Chem, POB 84428, Riyadh 11671, Saudi Arabia
[5] King Saud Univ, Coll Sci, Dept Chem, Riyadh 11451, Saudi Arabia
[6] Asia Pacific Univ Technol & Innovat, Sch Engn, Dept Petr Engn, Kuala Lumpur 57000, Malaysia
[7] Univ Malaysia Terengganu, Fac Maritime Studies, Terengganu, Malaysia
[8] Brno Univ Technol, Fac Mech Engn, NETME Ctr, Sustainable Proc Integrat Lab,SPIL, VUT Brno Tech 2896-2, Brno 61600, Czech Republic
来源
FUEL | 2023年 / 336卷
关键词
Cannabis sativa; Non-edible seed oil; Biodiesel; Green synthesis; Tungsten oxide nanoparticles; WASTE COOKING OIL; RUBBER SEED OIL; BIODIESEL PRODUCTION; METHYL-ESTERS; TRANSESTERIFICATION;
D O I
10.1016/j.fuel.2022.126796
中图分类号
TE [石油、天然气工业]; TK [能源与动力工程];
学科分类号
0807 ; 0820 ;
摘要
Current study focuses on the utilization of non-edible oil seeds of Cannabis sativa as an economical feedstock for synthesizing high quality biodiesel using novel, green and extremely reactive tungsten oxide (WO3) nano catalyst. The as synthesized green nanoparticles (NPs) were examined using Fourier-transform infrared spec-troscopy (FT-IR), X-ray Diffraction (XRD), energy diffraction X-ray (EDX) and scanning electron microscopy (SEM). Results showed that WO3 has spherical crystal structure with a diameter of 45 nm. Highest biodiesel yield (91 wt%) was achieved under dynamic conditions i.e., 2 wt% catalyst, 1:7 oil to methanol molar ratio, 80 degrees C reaction temperature for 120 min. The reaction conditions were optimized via Response Surface Methodology. WO3 NPs showed catalytic stability up to five rounds. The fuel characteristics of biodiesel met the values set by international standards. Non-edible Cannabis sativa seed oil and novel green WO3 nano-catalyst are economical choices to assist the sustainable growth of biodiesel industry.
引用
收藏
页数:10
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共 65 条
[41]   Effect of process parameters over carbon-based ZIF-62 nano-rooted membrane for environmental pollutants separation [J].
Mubashir, Muhammad ;
Ashena, Rahman ;
Bokhari, Awais ;
Mukhtar, Ahmad ;
Saqib, Sidra ;
Ali, Abulhassan ;
Saidur, R. ;
Khoo, Kuan Shiong ;
Ng, Hui Suan ;
Karimi, Fatemeh ;
Karaman, Ceren ;
Show, Pau Loke .
CHEMOSPHERE, 2022, 291
[42]   A review on CO2 capture via nitrogen-doped porous polymers and catalytic conversion as a feedstock for fuels [J].
Mukhtar, Ahmad ;
Saqib, Sidra ;
Mellon, Nurhayati Binti ;
Rafiq, Sikander ;
Babar, Muhammad ;
Ullah, Sami ;
Muhammad, Nawshad ;
Khan, Asim Laeeq ;
Ayoub, Muhammad ;
Ibrahim, Muhammad ;
Maqsood, Khuram ;
Bustam, Mohamad Azmi ;
Al-Sehemi, Abdullah G. ;
Klemes, Jiri Jaromir ;
Asif, Saira ;
Bokhari, Awais .
JOURNAL OF CLEANER PRODUCTION, 2020, 277
[43]   Cleaner production of biodiesel from novel non-edible seed oil (Carthamus lanatus L.) via highly reactive and recyclable green nano CoWO3@rGO composite in context of green energy adaptation [J].
Munir, Mamoona ;
Saeed, Muhammad ;
Ahmad, Mushtaq ;
Waseem, Amir ;
Alsaady, Mustafa ;
Asif, Saira ;
Ahmed, Anas ;
Khan, Mohd Shariq ;
Bokhari, Awais ;
Mubashir, Muhammad ;
Chuah, Lai Fatt ;
Show, Pau Loke .
FUEL, 2023, 332
[44]   Biodiesel production from novel non-edible caper (Capparis spinosa L.) seeds oil employing Cu-Ni doped ZrO2 catalyst [J].
Munir, Mamoona ;
Ahmad, Mushtaq ;
Saeed, Muhammad ;
Waseem, Amir ;
Nizami, Abdul-Sattar ;
Sultana, Shazia ;
Zafar, Muhammad ;
Rehan, Mohammad ;
Srinivasan, Gokul Raghavendra ;
Ali, Arshid Mahmood ;
Ali, Muhammad Ishtiaq .
RENEWABLE & SUSTAINABLE ENERGY REVIEWS, 2021, 138
[45]   A practical approach for synthesis of biodiesel via non-edible seeds oils using trimetallic based montmorillonite nano-catalyst [J].
Munir, Mamoona ;
Ahmad, Mushtaq ;
Mubashir, Muhammad ;
Asif, Saira ;
Waseem, Amir ;
Mukhtar, Ahmad ;
Saqib, Sidra ;
Munawaroh, Heli Siti Halimatul ;
Lam, Man Kee ;
Khoo, Kuan Shiong ;
Bokhari, Awais ;
Show, Pau Loke .
BIORESOURCE TECHNOLOGY, 2021, 328
[46]   Optimization of novel Lepidium perfoliatum Linn. Biodiesel using zirconium-modified montmorillonite clay catalyst [J].
Munir, Mamoona ;
Saeed, Muhammad ;
Ahmad, Mushtaq ;
Waseem, Amir ;
Sultana, Shazia ;
Zafar, Muhammad ;
Srinivasan, Gokul Raghavendra .
ENERGY SOURCES PART A-RECOVERY UTILIZATION AND ENVIRONMENTAL EFFECTS, 2022, 44 (03) :6632-6647
[47]   Sustainable production of bioenergy from novel non-edible seed oil (Prunus cerasoides) using bimetallic impregnated montmorillonite clay catalyst [J].
Munir, Mamoona ;
Ahmad, Mushtaq ;
Saeed, Muhammad ;
Waseem, Amir ;
Rehan, Mohammad ;
Nizami, Abdul-Sattar ;
Zafar, Muhammad ;
Arshad, Muhammad ;
Sultana, Shazia .
RENEWABLE & SUSTAINABLE ENERGY REVIEWS, 2019, 109 :321-332
[48]   Electrochemical heavy metal detection, photocatalytic, photoluminescence, biodiesel production and antibacterial activities of Ag-ZnO nanomaterial [J].
Nagaraju, G. ;
Udayabhanu ;
Shivaraj ;
Prashanth, S. A. ;
Shastri, M. ;
Yathish, K. V. ;
Anupama, C. ;
Rangappa, D. .
MATERIALS RESEARCH BULLETIN, 2017, 94 :54-63
[49]   Synthesis of fatty acid methyl esters via the transesterification of waste cooking oil by methanol with a barium-modified montmorillonite K10 catalyst [J].
Olutoye, M. A. ;
Wong, S. W. ;
Chin, L. H. ;
Amani, H. ;
Asif, M. ;
Hameed, B. H. .
RENEWABLE ENERGY, 2016, 86 :392-398
[50]   Physicochemical Properties of Biodiesel Synthesised from Grape Seed, Philippine Tung, Kesambi, and Palm Oils [J].
Ong, Hwai Chyuan ;
Mofijur, M. ;
Silitonga, A. S. ;
Gumilang, D. ;
Kusumo, Fitranto ;
Mahlia, T. M. I. .
ENERGIES, 2020, 13 (06)
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