Pengoperasian Alat Produksi Metana dari Pembakaran Limbah Kulit Padi

Yoyo Saputro

Abstract


This study aims to obtain the design and operation of methane (CH4) production equipment from burning of rice husk waste by burning it in a burner setup (testing) and to determine the effect of variations in air mass flow on the combustion temperature of rice husk waste, boiling time of water, and burning time maximum, combustion temperature. In this study using air mass flow of 0.020 m3 / s, 0.022 m3 / s, and 0.024 m3 / s, data collection included burning 5 kg of rice husk waste, boiling water volume, maximum flame time, combustion temperature. The results of the production of methane scale mass flow production tools have an effect on the effective flame and heat value. Or it can be concluded that the lower the mass of air mass used the longer the maximum flame produced, so that the heat obtained is also greater.


Keywords


rice husk; methane; air Mass

Full Text:

PDF

References


ArmiandD.Mandasari,“PengelolaanSampahOrganikmenjadiGasMetana,”SerambiSaintia,vol.5,no.1,pp.1–11,2017.

D.Anggraini,M.B.Pertiwi,andD.Bahrin,“PengaruhJenisSampah,KomposisiMasukandanWaktuTinggalterhadapKomposisiBiogasDariSampahOrganik,”Tek.Kim.,vol.18,no.1,pp.17–23,2012.

A.M.Jannah,“ProsesFermentasiHidrolisatJeramiPadi,”J.Tek.Kim.,vol.17,no.1,pp.44–52,2010.

D.A.HerawatiandA.A.Wibawa,“PengaruhPretreatmentJeramiPadipadaProduksiBiogasdariJeramiPadidanSampahSayurSawiHijauSecaraBatch,”PengaruhPretreat.JeramiPadipadaProduksiBiogasdariJeramiPadidanSampahSayurSawiHijauSecaraBatch,vol.4,no.1,pp.25–29,2010.

Noviyanto,F.A.S,venyuliA,H.Anwar,S.Gunawan,andT.Widjaja,“ProduksiGasMetanaDariLimbahJeramiPadiDenganEnergiTerbarukan,”J.Tek.Kim.,vol.9,no.2,pp.58–61,2015.

N.Nurhasni,H.Hendrawati,andN.Saniyyah,“SekamPadiuntukMenyerapIonLogamTembagadanTimbaldalamAirLimbah,”J.Kim.Val.,vol.4,no.1,2014.

F.AmalindaandM.Jufri,“FormulasiBriketBioarangSekamPadidanBijiSalaksebagaiSumberEnergiAlternatif,”J.SAINSTerap.,vol.4,no.2,pp.99–103,2018.

I.Taufik,“IdentifikasiNilaiKalorBiocharDariTongkolJagungDanSekamPadiPadaProsesPirolisis,”J.Tek.Kim.,vol.7,no.1,pp.32–35,2012.

D.Dzulfansyah,L.Nelwan,andD.Wulandani,“AnalisisComputationalFluidDynamicsuntukPerancanganReaktorGasifikasiSekamPadiTipeDowndraft,”J.KeteknikanPertan.,vol.2,no.2,pp.133–140,2014.

L.NajibandS.Darsopuspito,“KarakterisasiProsesGasifikasiBiomassaTempurungKelapaSistemDowndraftKontinyu,”KarakterisasiProsesGasifikasiBiomassaTempurungKelapaSist.DowndraftKontinyudenganVariasiPerbandinganUdar.BakardanUkuranBiomassa,vol.1,no.1,pp.12–15,2012.

“Gasifikasi,”pp.1–2.

T.T.AriantoSuyatnoPutro,SartonoPutro,“PengembanganDesaindanKonstruksiAlatProduksiGasMetanaDariPembakaranSampahOrganikSekamPadi,”no.September,p.13,2013.

U.T.A.L.Wicaksono,“DenganSatuTabung,”2015.

U.M.Surakarta,“TipeGanda,”2014.

G.Corro,U.Pal,F.Bañuelos,andM.Rosas,“Generationofbiogasfromcoffee-pulpandcow-dungco-digestion:Infraredstudiesofpostcombustionemissions,”EnergyConvers.Manag.,vol.74,pp.471–481,2013.

P.Reaksi,P.Bahan,P.Proses,K.Sumber,B.Di,andB.K.Lihat,“Metana,”vol.17564,2008.

BasworoandJahti,“AnalisisKandunganSelulosaHemiselulosadanLigninJeramiPadi(OryzaSativa)padaProsesPre-treatmentBioetanoldenganMetodeResistiveHeating,”no.1,p.43,2018.




DOI: https://doi.org/10.35970/accurate.v1i1.183

Article Metrics

Abstract view : 47 times
PDF - 2 times

Refbacks

  • There are currently no refbacks.


Copyright (c) 2020 Accurate : Journal Of Mechanical Engineering and Science

Indexed by:

 

 

Managed by.

Department of Mechanichal Engineering
Politeknik Negeri Cilacap
Jln. Dr.Soetomo No.01 Sidakaya, Cilacap, Indonesia
Telp: (0282) 533329
Email: accurate.ejournal@pnc.ac.id

 

 

Flag Counter

View My Stats

 

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.