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Energy Sources, Part A: Recovery, Utilization, and Environmental Effects Volume 45, 2023 - Issue 3
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Research Article

Biodiesel synthesis from mixed non-edible oil feedstock using K2CO3 in NH4OH Catalyst mixture

S Swarnaa Department of Chemistry, K.S. School of Engineering and Management (kssem), Bangalore, IndiaCorrespondence[email protected]
,
H V Srikanthb Department of Aeronautical Engineering, NitteMeenakshi Institute of Technology, Bangalore, India
,
R Anithaa Department of Chemistry, K.S. School of Engineering and Management (kssem), Bangalore, India
,
M.T. Swamyc Department of Chemistry, Sambhram Institute of Technology (SaIt), Bangalore, India;d Department of Mechanical Engineering, VTU Centre for Post Graduate Studies, Mysuru, India
,
T R Divakarae Department of Chemistry, Sri H.N. Ananthkumar Preuniversity College, Ramanagara, India
,
K N Krishnamurthyd Department of Mechanical Engineering, VTU Centre for Post Graduate Studies, Mysuru, India
&
S Shashidharf Department of Mechanical Engineering, UVCE, Bangalore, India
 show all
Pages 6901-6917 | Received 18 Jan 2023, Accepted 02 May 2023, Published online: 30 May 2023
 
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ABSTRACT

In the present study, a new approach has tried to synthesize and optimize biodiesel production from mixed oils (Pongamia and Mahua) using an in-situ generated KOH from K2CO3 in an NH4OH catalyst mixture using response surface methodology (RSM). A maximum biodiesel yield of 96.5 v/v% was obtained at a catalyst concentration (CC) of 1.5 g K2CO3 in 0.75 g of NH4OH, oil to methanol molar ratio (M:O) of 7:1 at a reaction temperature (RT) of 55°C in 75 min reaction time (Rt). The obtained biodiesel yield is compared and found to be maximum (96.5 v/v%) for K2CO3 in NH4OH catalyst mixture than K2CO3 in H2O, direct K2CO3 and Conventional KOH methods. Furthermore, the presence of carbonate and ammonium ions in the reaction medium resulted in an increased biodiesel yield due to the less possibility for free water molecules formation and with a minimal amount of KOH to drive the reaction toward the right-hand side. The GC-MS, 1HNMR and FTIR techniques were used to confirm the conversion of esters.

Disclosure statement

No potential conflict of interest was reported by the authors.

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