摘要
This study evaluates the effectiveness of microwave technology in producing activated carbon from lemongrass waste,an underutilized agricultural byproduct.Microwave-assisted production offers faster heating,lower energy consumption,and better process control compared to conventionalmethods.It also enhances pore development,resulting in larger,cleaner,and more uniform pores,making the activated carbon more effective for adsorption.The microwave-assisted process significantly accelerates production,reducing the required time to just 10 min at a power of 400 W.Activated carbon derived from lemongrass waste at 400 W exhibits a water absorption capacity of 7.88%,ash content of 5.51%,volatile matter of 6.96%,fixed carbon of 75.79%,and an iodine number of 790.97 g iodine/100 g.Scanning Electron Microscopy(SEM)analysis confirms the formation of larger,cleaner,and smoother pores,contributing to increased porosity and pore size.Additionally,Energy Dispersive X-ray(EDX)analysis identifies key elements in the lemongrass waste,with carbon being the dominant component at 75.57%.The Brunauer-Emmett-Teller(BET)surface area is measured at 818 m^(2)/g,with an average pore diameter of 1.91 nm,classifying the material as microporous.The activated carbon,meeting quality standards,is applied as an adsorbent in acid mine drainage(AMD)treatment,with varying mass concentrations introduced intowastewater samples.Adsorption tests confirmthat the microparticle carbon adsorption profile follows the Langmuir model,indicating a monolayer adsorption process.Furthermore,adsorption kineticswere analyzed over different time intervals,revealing that the process alignswith both pseudo-first-order(PFO)and pseudo-second-order(PSO)models,with all cases predominantly following the PFO rate equation.
基金
funded by the Ministry of Research,Technology,and Higher Education under Grant Number B/67/D.D3/KD.02.00/2019
as part of the BPPDN(Beasiswa Pendidikan Pascasarjana Dalam Negeri—Domestic Postgraduate Education Scholarship)program.
