• Tidak ada hasil yang ditemukan

Efisiensi Penyisihan Logam Fe dengan Menggunakan Instalasi Pengolahan Lindi Compact (IPLC)

N/A
N/A
Protected

Academic year: 2021

Membagikan "Efisiensi Penyisihan Logam Fe dengan Menggunakan Instalasi Pengolahan Lindi Compact (IPLC)"

Copied!
10
0
0

Teks penuh

(1)

(ILVLHQVL 3HQ\LVLKDQ /RJDP )H 'HQJDQ 0HQJJXQDNDQ

,QVWDODVL 3HQJRODKDQ /LQGL

Compact

,3/&

6HSWL $JULDQL 5DFKPDZDWL 6 'M

-XUXVDQ 7HNQLN /LQJNXQJDQ )DNXOWDV 7HNQLN 6LSLO GDQ 3HUHQFDQDDQ ,7(1$6 %DQGXQJ (PDLO VHSWLDJULDQL#\DKRR FRP

ABSTRAK

Lindi berasal dari proses dekomposisi sampah yang mengandung materi tersuspensi, terlarut, dan terekstraksi, sehingga kandungan lindi sangat berbahaya. Pada penelitian ini akan diteliti logam Fe yang terdapat dalam lindi TPA Sarimukti serta parameter pendukung, seperti pH, suhu, DO, kekeruhan dan TSS. Pengolahan dilakukan dengan menggunakan reaktor Instalasi Pengolahan Lindi Compact (IPLC) secara semi kontinu dengan kombinasi antara anaerob dan aerob. Waktu detensi yang digunakan, yaitu 31,33 jam yang didapatkan dari tracer test. Proses seeding dan aklimatisasi dilakukan menggunakan bakteri fakultatif, dengan dua media lekat, yaitu kaldness dan bioball. Berdasarkan dari karakteristik awal didapatkan beberapa parameter yang tidak memenuhi baku mutu Peraturan Menteri Lingkungan Hidup Tahun 2016 Tentang Baku Mutu Lindi Bagi Usaha dan/atau Kegiatan Tempat Pemrosesan Akhir Sampah, yaitu BOD5 sebesar 1.071,55-1.593,29 mg/l, COD sebesar 4.800-6.400 mg/l dan TSS sebesar 470-556 mg/l. Berdasarkan hasil penelitian, IPLC mampu menyisihkan Fe sebesar 53,87% dari konsentrasi awal.

Kata kunci: Air Lindi, Logam Berat, IPL Compact, Sarimukti

ABSTRACT

Leachate originates from waste decomposition process which contains suspended, dissolved, and extracted material, so that leachate content is considered as hazardous. In this research, leachate was obtained from municipal solid waste (TPA) Sarimukti. Parameters to be studied is heavy metals Fe which contained in the leachate from TPA Sarimukti. In addition several supporting parameters, such as pH, temperature, DO, turbidity and TSS are studied. The treatment was carried out using a pilot plant scale reactor of Leachate Compact Processing Plant (IPLC), operated semi-continuously using biological, physical and chemical processing systems as well as anaerobic-aerobic configurations. The detention time used were 31,33 hours which was obtained from the tracer test. The seeding and acclimatization process was carried out using facultative bacteria, with two sticky media, caldness and bioball. Based on the results, IPLC was able to eliminate Fe by 53,87% from the initial concentration.

(2)

3(1'$+8/8$1

7HPSDW 3HPEXDQJDQ $NKLU 73$ 6DULPXNWL PHUXSDNDQ 73$ \DQJ PHQDPSXQJ VDPSDK GDUL WLJD ZLOD\DK \DNQL .RWD %DQGXQJ .RWD &LPDKL GDQ .DEXSDWHQ %DQGXQJ %DUDW -HQLV VDPSDK \DQJ GLEXDQJ NH 73$ 6DULPXNWL PHUXSDNDQ FDPSXUDQ GDUL VDPSDK UXPDK WDQJJD SDVDU LQGXVWUL GDQ UXPDK VDNLW

3UDWDPD < GDQ 6ROHK $ = 7LPEXODQ VDPSDK GL 73$ DNDQ WHUEDVXK ROHK DLU KXMDQ GDQ

PHQLPEXONDQ OLQGL

/LQGL PHQJDQGXQJ PDWHUL WHUVXVSHQVL WHUODUXW GDQ WHUHNVWUDNVL GDUL VDPSDK VHKLQJJD NDQGXQJDQ OLQGL

WHUVHEXW VDQJDW EHUEDKD\D 7FKREDQRJORXV HW DO .DUDNWHULVWLN OLQGL VDQJDW WHUJDQWXQJ GDUL

NRPSRVLVL VDPSDK \DQJ WHUWLPEXQ GL GDODP landfill GL 73$ $LU OLQGL SDGD XPXPQ\D PHQJDQGXQJ

VHQ\DZD VHQ\DZD RUJDQLN KLGURNDUERQ DVDP KXPDW IXOIDW WDQDW GDQ JDODW GDQ DQRUJDQLN QDWULXP NDOLXP NDOVLXP PDJQHVLXP NORU VXOIDW IRVIDW IHQRO QLWURJHQ GDQ VHQ\DZD ORJDP EHUDW \DQJ WLQJJL

3DUVRQV 0HQXUXW 'DPDQKXUL ( ORJDP \DQJ WHUGDSDW GDODP OLQGL \DLWX ORJDP WHUODUXW

VHSHUWL VHQ\DZD VXOIDW GDUL &D 0J VHQ\DZD ELNDUERQDW GDUL )H &D 0J VHQ\DZD RNVLGD GDUL 6Q =Q

&X /RJDP EHUDW SDGD OLQGL EHUDVDO GDUL OLPEDK EDKDQ EHUEDKD\D GDQ EHUDFXQ % VHSHUWL NDEHO OLVWULN

EDWX EDWHUDL EHVL FDW SHODSLV DQWL NDUDW GVE

0HQXUXW 'DUPRQR DGDQ\D ORJDP EHUDW GL SHUDLUDQ VDQJDW EHUEDKD\D EDLN VHFDUD ODQJVXQJ

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

%HUNDLWDQ GHQJDQ KDO LWX VDODK VDWX DVSHN SHQWLQJ GDODP XSD\D SHQJHQGDOLDQ OLQJNXQJDQ DGDODK PHQJXUDQJL NRQVHQWUDVL ORJDP ORJDP EHUDW \DQJ DGD GDODP OLQGL 0HQXUXW (IIHQGL +

NRQVHQWUDVL ORJDP )H 0Q =Q GDQ &X SDGD SHUDLUDQ DODPL \DLWX )H VHEHVDU PJ OLWHU 0Q

VHEHVDU PJ OLWHU =Q VHEHVDU PJ OLWHU GDQ &X VHEHVDU PJ OLWHU %HUGDVDUNDQ KDO WHUVHEXW

SHQHOLWLDQ SHQ\LVLKDQ NDQGXQJDQ ORJDP )H SDGD OLQGL LQL GLODNXNDQ 3HQHOLWLDQ LQL PHQJJXQDNDQ

,QVWDODVL 3HQJRODKDQ /LQGLCompact ,3/& \DQJ PHUXSDNDQ SHQJHPEDQJDQ GDUL ,QVWDODVL 3HQJRODKDQ

/XPSXU 7LQMDCompact ,3/7& \DQJ GLGHVDLQ GHQJDQ VNDODpilot plant GHQJDQ YROXPH OHELK NHFLO GDUL

SHQJRODKDQ \DQJ DGD GL 73$ 6DULPXNWL \DLWX P 5HDNWRU LQL GLOHQJNDSL GHQJDQ VHUDQJNDLDQ XQLW

SHQJRODKDQ \DLWX grit chamber, grease trap, primary clarifier, anaerobic biological filter, anoxic

chamber, moving bed biological reactor (MBBR) GDQsecondary clarifier. 3HQHOLWLDQ LQL PHPEHULNDQ

XQLW WDPEDKDQ EHUXSD activated sand filter \DQJ EHUIXQJVL XQWXN PHQJXUDQJL NDQGXQJDQ ORJDP EHUDW

3DGD SHQHOLWLDQ LQL SHQJXNXUDQ SDUDPHWHU SHQGXNXQJ \DLWX S+ VXKX '2 NHNHUXKDQ GDQ 766 GLJXQDNDQ VHEDJDL SHQXQMDQJ GDODP PHQJDQDOLVLV SDUDPHWHU XWDPD \DLWX )H +DVLO DNKLU GDUL SHQHOLWLDQ LQL GLKDUDSNDQ DNDQ GLNHWDKXL HILVLHQVL GDQ HIHNWLILWDV GDUL ,3/&

0(72'2/2*,

7DKDSDQ SDGD SHQHOLWLDQ LQL DGDODK VWXGL SXVWDND SHUVLDSDQ SHQHOLWLDQ SHQHOLWLDQ SHQGDKXOXDQ SHQJXNXUDQ NDUDNWHULVWLN DZDO SHQJRSHUDVLDQ ,3/& DQDOLVLV SHPEDKDVDQ GDQ NHVLPSXODQ

6WXGL SXVWDND PHUXSDNDQ FDUD \DQJ GLODNXNDQ XQWXN PHQJKLPSXQ LQIRUPDVL \DQJ UHOHYDQ GHQJDQ PDVDODK \DQJ VHGDQJ GLWHOLWL 6WXGL SXVWDND GDSDW GLSHUROHK GDUL EXNX EXNX LOPLDK ODSRUDQ SHQHOLWLDQ NDUDQJDQ NDUDQJDQ LOPLDK WHVLV GDQ GLVHUWDVL SHUDWXUDQ SHUDWXUDQ EXNX HQVLNORSHGLD GDQ VXPEHU VXPEHU WHUWXOLV EDLN WHUFHWDN PDXSXQ HOHNWURQLN 6WXGL SXVWDND PHUXSDNDQ KDO SHQWLQJ XQWXN GDSDW

PHQXQMDQJ SHQHOLWLDQ 8QWXN SHUVLDSDQ SDGD SHQHOLWLDQ LQL WHUGDSDW WDKDSDQ \DLWX SHUVLDSDQ DODW GDQ

EDKDQ VHHGLQJ VHUWD DNOLPDWLVDVL

(3)

$ODW \DQJ GLSHUVLDSNDQ GDODP SHQHOLWLDQ LQL PHUXSDNDQ DODW \DQJ PHQGXNXQJ GDODP SURVHV SHQ\LVLKDQ ORJDP EHUDW \DLWX DHUDWRU SRPSD GDQ YDOYH SHQJDWXU GHELW 6NHPD UDQJNDLDQ SURVHV

SHQ\LVLKDQ ORJDP EHUDW PHQJJXQDNDQ ,3/& GDSDW GLOLKDW SDGD*DPEDU

Grease Trap Grit Chamber Primary Clarifier 0%%5 0%%5 Anoxic A n a e ro b ic B io fi lt e r A na e ro b ic B io fi lt e r S e c o n d a ry C la ri fi e r Reservoir 'UXP Filter 3RPSD 3RPSD 3RPSDResirkulasi Aerator Supply2NVLJHQ $OLUDQ /LQGL Resirkulasi

*DPEDU 5DQJNDLDQ $ODW ,3/&

3DGD SHQHOLWLDQ LQL DHUDWRU EHUIXQJVL VHEDJDL DODW \DQJ PHQ\XSODL XGDUD SDGD XQLW JULW FKDPEHU

SULPDU\ FODULILHU 0%%5 GDQ 0%%5 6XSODL XGDUD LQL GLXWDPDNDQ SDGD XQLW 0%%5 GDQ

+DO LQL GLNDUHQDNDQ SDGD XQLW WHUVHEXW WHUGDSDW PLNURRUJDQLVPH OHNDW \DQJ GLNRQGLVLNDQ VHFDUD DHURE 3HUVLDSDQ EDKDQ \DQJ GLEXWXKNDQ GDODP SHQHOLWLDQ LQL GLGDVDUNDQ SDGD 6WDQGDU 1DVLRQDO

,QGRQHVLD 61, GDQ 6WDQGDUG 0HWKRGH :DWHU DQG :DVWHZDWHU 60:: VHSHUWL \DQJ GLVDMLNDQ

SDGD7DEHO

E 6HHGLQJ

%DNWHUL \DQJ GLJXQDNDQ SDGD WDKDS VHHGLQJ LQL PHUXSDNDQ MHQLV EDNWHUL IDNXOWDWLI 0HQXUXW 5LIDOGL

GDODP 5RFKPDK /HOD VHEHOXP GLJXQDNDQ PLNURRUJDQLVPH LQL GLODUXWNDQ NH GDODP

OLWHU OLQGL GDODP HPEHU \DQJ PHPLOLNL YROXPH OLWHU GDQ GLGLDPNDQ VHODPD MDP 3DGD SURVHV

VHHGLQJ GLEHULNDQ SHQDPEDKDQ VXEVWUDW VHEDQ\DN OLWHU GDQ PHGLD NDOGQHVV VHEDQ\DN OLWHU

DWDX VHWDUD GHQJDQ NJ

7DEHO 0HWRGH 3HQJXNXUDQ \DQJ 'LJXQDNDQ

3DUDPHWHU 3ULQVLS 3HQJXNXUDQ 0HWRGH 3HQJXNXUDQ

/RJDP )H 0Q =Q GDQ &X $WRPLF DEVRUSWLRQ VSHFWURPHWHU DQG DVVRFLDWHG HTXLSPHQW 60:: & S+ (OHFWURGD 3RWHQVLRPHWUL 61, 6XKX ,GHP ,GHP '2 (OHNWURPHWUL 61, 766 *UDYLPHWUL 61, .HNHUXKDQ 7XUELGLPHWUL 61,

Sumber: SMWW dan SNI

F $NOLPDWLVDVL

7DKDS DNOLPDWLVDVL DGDODK WDKDS SHQJNRQGLVLDQ PLNURRUJDQLVPH DJDU GDSDW KLGXS GDQ PHODNXNDQ DGDSWDVL 3DGD WDKDS LQL GLKDUDSNDQ PLNURRUJDQLVPH WHUVHEXW GDSDW WXPEXK GDQ EHUNHPEDQJ ELDN

GHQJDQ EDLN GHQJDQ SHPEHULDQ QXWULHQW EHUXSD JOXNRVD & + 2 NHSDGD EDNWHUL VDPSDL NDGDU

&2' PHQMDGL WXQDN IOXNWXDVL 'ZRUNLQ GNN 3DUDPHWHU \DQJ GLDPDWL DGDODK PL[HG

OLTRXU YRODWLOH VXVSHQGHG VROLGV 0/966 VHEDJDL SDUDPHWHU DFXDQ \DQJ PHQXQMXNNDQ NRQVHQWUDVL

PLNURRUJDQLVPH \DQJ WXPEXK GDQ &2' \DQJ PHQXQMXNNDQ NHWHUVHGLDDQ NDQGXQJDQ

PLNURRUJDQLVPH 3DGD WDKDS LQL SHQDPEDKDQ PHGLD NDOGQHVV GDQ VXEVWUDW GLODNXNDQ VHFDUD EHUWDKDS 3HQDPEDKDQ PHGLD NDOGQHVV GDQ VXEVWUDW SDGD SURVHV DNOLPDWLVDVL GDSDW GLOLKDW SDGD

(4)

7DEHO 3HQDPEDKDQ 0HGLD .DOGQHVV SDGD 3URVHV $NOLPDWLVDVL GDQ 6XEVWUDW 3HQDPEDKDQ 3URVHV -XPODKKaldness /LWHU Aklimatisasi 7DKDS /LWHU Aklimatisasi 7DKDS /LWHU Aklimatisasi 7DKDS /LWHU Kaldness 0%%5 0%%5

6XEVWUDW -XPODK 6XEVWUDW

/LWHU

0%%5 0%%5

Sumber: Hasil Perhitungan, 2017; Rochmah, Lela 2017

3HQHOLWLDQ 3HQGDKXOXDQ

3HQHOLWLDQ SHQGDKXOXDQ \DQJ GLODNXNDQ DGDODK WUDFHU WHVW \DQJ EHUWXMXDQ XQWXN PHQJHWDKXL ZDNWX GHWHQVL DNWXDO GDQ GLVWULEXVL DOLUDQ GDODP UHDNWRU ,3/& %DKDQ EDNX \DQJ GLJXQDNDQ \DLWX 1D&O \DQJ

EHUVLIDW LQHUW VHEDQ\DN JU GHQJDQ NRQVHQWUDVL PJ O VHKLQJJD GDSDW GLODNXNDQ SHQJXNXUDQ 'D\D

+DQWDU /LVWULN '+/ (QYLURQPHQWDO 3URWHFWLRQ $JHQF\ GDODP 5RFKPDK /HOD 0HWRGH

SHQJXNXUDQ '+/ GLODNXNDQ GHQJDQ PHWRGH NRQGXNWLYLPHWUL \DQJ GLGDVDUNDQ SDGD 61,

3URVHV WUDFHU WHVW GDSDW WHUFDSDL MLND NRQVHQWUDVL 1D&O \DQJ GLEXEXKNDQ GL LQOHW EDN SHQDPSXQJ

,3/& VDPD GHQJDQ RXWOHW \DLWX SDGD XQLW DFWLYDWHG VDQG ILOWHU VHEHVDU PJ / 5RFKPDK /HOD

7UDFHU WHVW GLODNXNDQ GHQJDQ PHWRGH VWHS GRVH GDQ SHQJDPELODQ VDPSHO VHFDUD JUDE VDPSOLQJ

5RFKPDK /HOD 'DODP PHQHQWXNDQ ZDNWX GHWHQVL WHUGDSDW SHUKLWXQJDQ SHUKLWXQJDQ \DQJ

GLODNXNDQ \DLWX 0HDQ 5HVLGHQFH 7LPH 057 YDULDQVL GDQ NRHILVLHQ YDULDQVL 5HWHQWLRQ 7LPH

'LVWULEXWLRQ 57' 6HODLQ LWX XQWXN PHQHQWXNDQ SROD DOLUDQ GLODNXNDQ SHUKLWXQJDQ VHSHUWL PRULLO

GLVSHUVLRQ LQGH[ YROXPHWULF HIILFLHQF\ GDQ GLVSHUVLRQ QXPEHU

3HQJRSHUDVLDQ ,3/&

,3/& GLRSHUDVLNDQ GHQJDQ GHELW OLWHU GHWLN 5RFKPDK /HOD 'HELW LQOHW GDQ RXWOHW GLDWXU

GHQJDQ GHELW \DQJ VDPD DJDU WLGDN WHUMDGL SHOXDSDQ 3HQJDWXUDQ GHELW LQL GLODNXNDQ VHFDUD PDQXDO

GHQJDQ PHQDPSXQJ VHEDQ\DN PO GDODP ZDNWX GHWLN ,3/& GLRSHUDVLNDQ GHQJDQ ZDNWX GHWHQVL

\DQJ GLSHUROHK GDUL WUDFHU WHVW \DLWX VHODPD MDP 3HUKLWXQJDQ HILVLHQVL ORJDP SDGD ,3/&

GLODNXNDQ GDODP NDOL UXQQLQJ GHQJDQ PHQJJXQDNDQ OLQGL GDUL 73$ 6DULPXNWL \DQJ WHODK EHUXVLD !

WDKXQ 5XQQLQJ GLODNXNDQ NHWLND SURVHV VHHGLQJ GDQ DNOLPDWLVDVL VHOHVDL 0HQXUXW 5RFKPDK /HOD SHQJDPELODQ VDPSHO GLODNXNDQ EHUJDQWXQJ SDGD ZDNWX GHWHQVL GDUL VHWLDS XQLW GL ,3/& :DNWX GHWHQVL WLDS XQLW GLGDSDWNDQ GDUL SHUEDQGLQJDQ YROXPH DLU GDODP XQLW SHQJRODKDQ GHQJDQ WRWDO YROXPH DLU GDODP UHDNWRU ,3/& \DQJ GLNDOLNDQ ZDNWX GHWHQVL KDVLO GDUL WUDFHU WHVW +DVLO ZDNWX GHWHQVL \DQJ

GLGDSDWNDQ GDUL WUDFHU WHVW GDSDW GLOLKDW SDGD7DEHO

7DEHO :DNWX 'HWHQVL 8QLW ,3/& 1R 8QLW SHQJRODKDQ 'LPHQVL EDJLDQ GDODP P 9ROXPH WHRULWLV P 9ROXPH DLU GL ,3/& P 9ROXPH DLU SHU XQLW P 7G ,3/& GDUL WUDFHU WHVW -DP 7G SHU XQLW -DP *ULW FKDPEHU 3ULPDU\ FODULILHU *XWWHU $QDHURELF ELRILOWHU $QDHURELF ELRILOWHU $QR[LF FKDPEHU

(5)

1R 8QLW SHQJRODKDQ 'LPHQVL EDJLDQ GDODP P 9ROXPH WHRULWLV P 9ROXPH DLU GL ,3/& P 9ROXPH DLU SHU XQLW P 7G ,3/& GDUL WUDFHU WHVW -DP 7G SHU XQLW -DP 0%%5 *XWWHU 0%%5 *XWWHU 6HFRQGDU\ FODULILHU $FWLYDWHG VDQG ILOWHU 7RWDO

6XPEHU +DVLO 3HQHOLWLDQ 5RFKPDK

$QDOLVLV \DQJ DNDQ GLODNXNDQ \DLWX DQDOLVLV WHUKDGDS NDUDNWHULWLN VDPSHO OLQGL 73$ 6DULPXNWL HILVLHQVL GDQ HIHNWLILWDV SHQ\LVLKDQ ORJDP SDGD ,3/&

+$6,/ '$1 3(0%$+$6$1

.DUDNWHULVWLN /LQGL 73$ 6DULPXNWL

6HEHOXP PHODNXNDQ SURVHV SHQJRODKDQ PDND SHUOX GLNHWDKXL NDUDNWHULVWLN VDPSHO OLQGL 73$ 6DULPXNWL 'DWD \DQJ GLSHUROHK DNDQ GLEDQGLQJNDQ GHQJDQ GXD EDNX PXWX \DLWX XQWXN S+ 766 &2' GDQ %2'

GLEDQGLQJNDQ GHQJDQ 3HUPHQ /+ 1R 7DKXQ VHGDQJNDQ XQWXN SDUDPHWHU )H GLEDQGLQJNDQ

GHQJDQ EDNX PXWX 3HUPHQ /+ 1R 7DKXQ +DO LQL GLNDUHQDNDQ SDGD SHUDWXUDQ 1630 38

1RUPD 6WDQGDU 3HGRPDQ 0DQXDO 3HNHUMDDQ 8PXP WDKXQ GDQ 3 WDKXQ WLGDN WHUGDSDW

EDNX PXWX XQWXN SDUDPHWHU ORJDP EHUDW )H XQWXN OLQGL 6HODLQ LWX SHQJJXQDDQ SHUDWXUDQ LQL GLGDVDUNDQ DWDV SHQJJXQDDQ SHUDWXUDQ \DQJ GLSDNDL ROHK SLKDN 73$ 6DULPXNWL VHQGLUL 3HUEDQGLQJDQ EDNX PXWX

\DQJ GLJXQDNDQ DGDODK JRORQJDQ ,, NDUHQD PHPLOLNL NDUDNWHULVWLN %2' VHEHVDU PJ O GDQ &2'

VHEHVDU PJ O 5DV\DKLG 6RFD +DVLO XML NDUDNWHULVWLN GDSDW GLOLKDW SDGD7DEHO

7DEHO 3HUEDQGLQJDQ %DNX 0XWX GHQJDQ .DUDNWHULVWLN $ZDO /LQGL 73$ 6DULPXNWL

3DUDPHWHU 6DWXDQ .RQVHQWUDVL %DNX 0XWX .HWHUDQJDQ 3HU0HQ /+ 1R 3HUPHQ /+ 1R S+ 0HPHQXKL 6XKX R& 0HPHQXKL )H PJ O 0HPHQXKL 766 PJ O 7LGDN 0HPHQXKL &2' PJ O 7LGDN 0HPHQXKL %2' PJ O 7LGDN 0HPHQXKL 6XPEHU 3HUKLWXQJDQ 7HQWDQJ %DNX 0XWX /LQGL %DJL 8VDKD GDQ DWDX .HJLDWDQ 7HPSDW 3HPURVHVDQ $NKLU 6DPSDK 7HQWDQJ $LU /LPEDK

%HUGDVDUNDQ 7DEHO SDUDPHWHU \DQJ PHPHQXKL EDNX PXWX \DLWX S+ VXKX =Q &X )H GDQ 0Q

VHGDQJNDQ \DQJ WLGDN PHPHQXKL EDNX PXWX \DLWX 766 &2' GDQ %2' .RQVHQWUDVL 766 PHQFDSDL

PJ O WLGDN PHPHQXKL EDNX PXWX 3HUPHQ /+ 1R WDKXQ \DQJ GLWHWDSNDQ VHEHVDU

PJ O .RQVHQWUDVL &2' PHQFDSDL PJ O VHKLQJJD WLGDN PHPHQXKL EDNX PXWX \DQJ

GLWHWDSNDQ \DLWX PJ O 8QWXN %2' GLGDSDWNDQ NRQVHQWUDVL PHQFDSDL PJ O ROHK

NDUHQD LWX WLGDN PHPHQXKL EDNX PXWX \DQJ GLWHWDSNDQ \DLWX VHEHVDU PJ O .DUDNWHULVWLN DZDO \DQJ

GLGDSDWNDQ SDGD7DEHO DNDQ GLEDQGLQJNDQ GHQJDQ SHUQ\DWDDDQ 5HQRXL HW DO SDGD7DEHO PHQJHQDL

(6)

7DEHO .ODVLILNDVL .DUDNWHU /LQGL 0HQXUXW 8PXU /DQGILOO

3DUDPHWHU 0XGD 8PXU 6HGDQJ 8PXU 7XD 8PXU !

S+ ! &2' PJ/ ! %2' &2' ! /RJDP %HUDW 5HQGDK 6HGDQJ 5HQGDK %LRGHJUDGDEOH 7LQJJL 6HGDQJ 5HQGDK 6XPEHU 5HQRXL HW DO

1LODL S+ SDGD 73$ 6DULPXNWL EHUNLVDU DQWDUD -LND GLEDQGLQJNDQ GHQJDQ 3HUDWXUDQ 0HQWHUL

/LQJNXQJDQ +LGXS 3HUPHQ /+ 1R 7DKXQ PDND S+ WHODK PHPHQXKL EDNX PXWX 7DEHO

.RQGLVL S+ WHUVHEXW VHVXDL GHQJDQ SHUQ\DWDDQ 5HQRXL HW DO EDKZD QLODL S+ OLQGL 73$ \DQJ

EHUXPXU WXD ! WDKXQ \DLWX OHELK GDUL 7DEHO S+ PHUXSDNDQ VDODK VDWX SDUDPHWHU \DQJ SHQWLQJ

GDODP NHODUXWDQ ORJDP 1LODL S+ \DQJ WLQJJL PHQXQMXNNDQ EDKZD OLQGL LQL PHPLOLNL NRQGLVL EDVD VHKLQJJD NHQDLNDQ S+ LQL GDSDW PHQXUXQNDQ NHODUXWDQ ORJDP GDODP DLU (IIHQGL

1LODL VXKX SDGD 73$ 6DULPXNWL PHPLOLNL QLODL VHEHVDU R& 6XKX PHUXSDNDQ SDUDPHWHU \DQJ

GDSDW PHPSHQJDUXKL NHODUXWDQ ORJDP EHUDW GDODP SHUDLUDQ 1LODL VXKX \DQJ OHELK UHQGDK DNDQ PHQLQJNDWNDQ DGVRUSVL ORJDP SDUWLNXODW XQWXN PHQJHQGDS VHGDQJNDQ VDDW VXKX DLU QDLN VHQ\DZD ORJDP EHUDW DNDQ WHUODUXWNDQ GDODP DLU NDUHQD SHQXUXQDQ ODMX DGVRUSVL NH GDODP SDUWLNXODW 3DOODU +

3HQJXNXUDQ NRQVHQWUDVL ORJDP EHUDW \DQJ GLGDSDWNDQ XQWXN )H VHEHVDU PJ O +DO WHUVHEXW

VHVXDL GHQJDQ SHUQ\DWDDQ 5HQRXL HW DO EDKZD QLODL ORJDP EHUDW OLQGL SDGD 73$ \DQJ EHUXPXU

WXD LWX UHQGDK 7DEHO -LND GLOLKDW GDUL NHHPSDW NRQVHQWUDVL NDUDNWHULVWLN DZDO ORJDP )H PHPLOLNL

QLODL \DQJ PHQGHNDWL EDWDV EDNX PXWX \DQJ GLSHUEROHKNDQ VHKLQJJD SHPEDKDVDQ SHQ\LVLKDQ ORJDP ROHK ,3/& SDGD MXUQDO LQL KDQ\D GLIRNXVNDQ SDGD ORJDP )H

1LODL 7RWDO 6XVSHQGHG 6ROLG 766 SDGD 73$ 6DULPXNWL EHUNLVDU DQWDUD PJ O 1LODL 766 LQL

EHUNROHUDVL SRVLWLI GHQJDQ NHNHUXKDQ -LND GLEDQGLQJNDQ GHQJDQ 3HUPHQ /+ 1R 7DKXQ PDND

QLODL 766 WHUVHEXW WLGDN PHPHQXKL EDNX PXWX 7DEHO 8QWXN QLODL NHNHUXKDQ GLGDSDWNDQ VHEHVDU

178 0HQXUXW 'DYLV GDQ &RUQZHOO GDODP %DULJXQD 'LSR NHNHUXKDQ

PHQJJDPEDUNDQ DGDQ\D PDWHUL RUJDQLN GDQ DQRUJDQLN EDLN WHUVXVSHQVL PDXSXQ WHUODUXW GDODP SHUDLUDQ

.RQVHQWUDVL 'LVVROYHG 2[\JHQ '2 SDGD 73$ 6DULPXNWL PHPLOLNL QLODL EHUNLVDU DQWDUD PJ O

5HQGDKQ\D NDQGXQJDQ '2 SDGD DLU EHUSHQJDUXK EXUXN WHUKDGDS NHKLGXSDQ DNXDWLN GL GDODPQ\D 0LQLPQ\D NDQGXQJDQ RNVLJHQ WHUODUXW PHQJDNLEDWNDQ PXQFXOQ\D NRQGLVL DQDHURELN GHQJDQ EDX EXVXN GDQ SHUPDVDODKDQ HVWHWLND .HWHUVHGLDDQ RNVLJHQ MXJD EHUJDQWXQJ SDGD VXKX NDUHQD NHODUXWDQ RNVLJHQ PHQLQJNDW GHQJDQ EHUNXUDQJQ\D VXKX .DGOHF 5 +

3HQJXNXUDQ NRQVHQWUDVL &2' EHUWXMXDQ XQWXN PHOLKDW NDQGXQJDQ RUJDQLN \DQJ VXNDU XQWXN

WHUGHJUDGDVL .RQVHQWUDVL &2' SDGD 73$ 6DULPXNWL LQL EHUNLVDU DQWDUD PJ O 3DGD

SHQHOLWLDQ LQL MXJD GLODNXNDQ SHQJXNXUDQ %2' \DQJ EHUWXMXDQ XQWXN PHQJHWDKXL RUJDQLN \DQJ PXGDK

WHUELRGHJUDGDVL .RQVHQWUDVL %2' SDGD 73$ 6DULPXNWL LQL EHUNLVDU DQWDUD PJ O

5DVLR %2' &2' \DQJ GLSHUROHK DGDODK GLPDQD QLODL WHUVHEXW MLND GLEDQGLQJNDQ GHQJDQ V\DUDW

XQWXN SHQJRODKDQ VHFDUD ELRORJL \DLWX ! PDND SHQJRODKDQ ELRORJL \DQJ GLODNXNDQ GDSDW PHQMDGL

NXUDQJ HIHNWLI -LND GLEDQGLQJNDQ GHQJDQ 3HUPHQ /+ 1R 7DKXQ PDND QLODL %2' GDQ &2'

(7)

(ILVLHQVL 3HQ\LVLKDQ /RJDP %HUDW D 3HQ\LVLKDQ )H

3HQHOLWLDQ LQL GLIRNXVNDQ XQWXN PHQ\LVLKNDQ SDUDPHWHU )H NDUHQD NRQVHQWUDVL SDGD NDUDNWHULVWLN DZDO

OLQGL GL 73$ 6DULPXNWL WHODK PHQGHNDWL EDNX PXWX 3HUPHQ /+ 1R 7DKXQ \DLWX PJ O

.HEHUDGDDQ EHVL GDODP DLU GDSDW EHUXSD )H \DQJ PHUXSDNDQ EHVL WHUODUXW GDODP DLU GDQ )H EHVL \DQJ

WHUHQGDSNDQ DWDX WHURNVLGDVL DNLEDW DGDQ\D SURVHV DHUDVL 3DGD XPXPQ\D RNVLJHQ GDODP DLU DNDQ GLJXQDNDQ XQWXN PHQJRNVLGDVL EHVL \DQJ WHUODUXW GDODP DLU PHQMDGL EHQWXN EHVL \DQJ GDSDW PHQJHQGDS $GDSXQ SURVHVQ\D DGDODK EHVL GDODP EHQWXN IHUUR GLRNVLGDVL WHUOHELK GDKXOX PHQMDGL EHQWXN IHUUL ODOX WHUMDGL SHQJHQGDSDQ GHQJDQ PHPEHQWXN IHUUL KLGURNVLGD UHDNVL LQL PXGDK WHUMDGL SDGD NRQGLVL S+

)DLU *H\HU - &

D E

F G

H I

*DPEDU *UDILN D (ILVLHQVL 3HQ\LVLKDQ /RJDP )H 3HU XQLW E .RQGLVL 6XKX 6DDW 3HQJRODKDQ F .RQGLVL S+ 6DDW 3HQJRODKDQ G .RQVHQWUDVL '2 3DGD 6DDW 3HQJRODKDQ H .RQVHQWUDVL 766 3DGD 6DDW

3HQJRODKDQ GDQ I 1LODL .HNHUXKDQ 3DGD 6DDW 3HQJRODKDQ 6XPEHU +DVLO 3HUKLWXQJDQ

3HUFREDDQ 3HUFREDDQ F e (% ) 3HUFREDDQ 3HUFREDDQ S u h u ( oC ) 3HUFREDDQ 3HUFREDDQ p H 3HUFREDDQ 3HUFREDDQ D O (m g /l ) 3HUFREDDQ 3HUFREDDQ T S S ( m g /l ) 3HUFREDDQ 3HUFREDDQ K e ke ru h a n ( N T U )

(8)

3DGD SHUFREDDQ SHUWDPD *DPEDU D GLGDSDWNDQ QLODL HILVLHQVL VHEHVDU 1LODL HILVLHQVL SHQ\LVLKDQ LQL GDUL LQOHW NH WLDS XQLW PHQJDODPL NHQDLNDQ WHUXWDPD SDGD RXWOHW ILOWHU -LND GLEDQGLQJNDQ

GHQJDQ SDUDPHWHU VXKX \DQJ GLGDSDWNDQ \DLWX R& NRQGLVL VXKX \DQJ GLSHUROHK LQL GLSHQJDUXKL

ROHK ZDNWX SHQJDPELODQ WLDS VDPSHO 3DGD XQLW RXWOHW ILOWHU GLGDSDWNDQ VXKX SDOLQJ UHQGDK GLEDQGLQJNDQ

GHQJDQ XQLW ODLQ \DLWX R& DWDX EHUDGD GL EDZDK VXKX UXDQJ VHKLQJJD SURVHV DGVRUSVL ORJDP SDGD

PHGLD SDVLU GDSDW PXGDK WHUMDGL 0HQXUXW %R\G GDODP 7FKREDQRJORXV HW DO VXKX DLU \DQJ

OHELK GLQJLQ DNDQ PHQLQJNDWNDQ DGVRUSVL ORJDP SDUWLNXODW XQWXN PHQJHQGDS 0HQXUXW 0XFKWDGL '

VXKX RSWLPXP XQWXN PLNURRUJDQLVPH \DQJ KLGXS SDGD VXKX R& DGDODK JRORQJDQ

Mesophilic

S+ \DQJ GLGDSDWNDQ EDVD EHUNLVDU +DO LQL PHPEHULNDQ NHXQWXQJDQ NDUHQD PHQXUXW %R\G

GDODP 7FKREDQRJORXV HW DO NRQGLVL LQL DNDQ PHQXUXQNDQ NHODUXWDQ ORJDP GDODP DLU

NDUHQD NHQDLNDQ S+ PHQJXEDK NHVWDELODQ GDUL EHQWXN NDUERQDW PHQMDGL KLGURNVLGD \DQJ PHPEHQWXN LNDWDQ GHQJDQ SDGD EDGDQ DLU VHKLQJJD DNDQ PHPEHQWXN OXPSXU 3DGD SHUFREDDQ SHUWDPD GLGDSDWNDQ

QLODL '2 \DLWX EHUNLVDU PJ O 1LODL WHUHQGDK EHUDGD SDGD XQLW outlet filter \DLWX PJ O

VHGDQJNDQ WHUWLQJJL WHUMDGL SDGD XQLW 0%%5 GDQ GLVXVXO ROHK XQLW grit chamber GDQ primary

clarifier 3DGD XQLW 0%%5 GDQ NRQVHQWUDVL '2 \DQJ WLQJJL \DLWX PJ O GLSHUXQWXNNDQ

EDJL SHUWXPEXKDQ PLNURRUJDQLVPH XQWXN PHQGHJUDGDVL EDKDQ RUJDQLN GDQ ORJDP 3DGD XQLW grit

chamberGDQprimary clarifierGLGDSDWNDQ '2 VHEHVDU PJ O +DO LQL GLGDSDWNDQ NDUHQD SDGD NHGXD XQLW GLEHULNDQ VXSODL XGDUD XQWXN PHPSHUPXGDK NHFHSDWDQ SHQJHQGDSDQ SDVLU 766 GDQ

PHPEHULNDQ GRURQJDQ DJDU WHUMDGL DOLUDQ down flow %HUGDVDUNDQ *DPEDU H PHPSHUOLKDWNDQ

NRQVHQWUDVL 766 PHQJDODPL IOXNWXDVL 8QLW \DQJ HILVLHQ GDODP PHQXUXQNDQ 766 WHUMDGL SDGD outlet

filter 3DGD SHUFREDDQ SHUWDPD LQL WHUMDGL SHQXUXQDQ 766 GDUL XQLWgrit chamberKLQJJDinlet anoxic ODOX

WHUMDGL SHQLQJNDWDQ SDGDoutlet anoxic QDPXQ WHUMDGL SHQXUXQDQ NHPEDOL KLQJJDoutlet filter 1LODL 766

LQL EHUEDQGLQJ OXUXV GHQJDQ NHNHUXKDQ 3HQXUXQDQ 766 LQL PHQJLQGLNDVLNDQ WHUMDGL SHQXUXQDQ NRQVHQWUDVL ROHK SURVHV SHQJHQGDSDQ EDLN ]DW RUJDQLN DWDXSXQ ORJDP ORJDP $NDQ WHWDSL QLODL 766

\DQJ GLGDSDWNDQ LQL EHOXP PHPHQXKL EDNX PXWX 3HUPHQ /+ 1R WDKXQ

3DGD SHUFREDDQ NHGXD *DPEDU D GLGDSDWNDQ NHQDLNDQ HILVLHQVL \DQJ KDPSLU VDPD GHQJDQ

SHUFREDDQ SHUWDPD QDPXQ SHQ\LVLKDQ PHQLQJNDW GDUL PXODLoutlet anoxicNHoutlet filter GHQJDQ QLODL

HILVLHQVL WHUEHVDU \DLWX SDGDoutlet filterVHEHVDU 6XKX SDGD XQLWoutlet filterGLSHUROHK VHEHVDU

R& 3DGD XPXPQ\D )H GDSDW GLGHJUDGDVL ROHK EDNWHUL Thiobacillus ferrooxidans QDPXQ EDNWHUL

WHUVHEXW KDQ\D GDSDW KLGXS SDGD VXKX R& GDQ EHUDGD GDODP S+ '2 GLGDSDWNDQ VHEHVDU

PJ O XQWXN XQLWoutlet filter 3DGD ,3/& LQL WHUGDSDW XQLW \DQJ GLRSHUDVLNDQ VHFDUD DQDHURE \DLWXanaerob

biological filterGDQanoxic $NDQ WHWDSL QLODL '2 \DQJ GLGDSDWNDQ WLGDN VHVXDL GHQJDQ \DQJ GLKDUDSNDQ

NDUHQD PHQXUXW *UD\ 1 ) SDGD XQLWanaerobGDQanoksic VHKDUXVQ\D PHPLOLNL NRQVHQWUDVL '2

“ PJ O 766 PHQXUXQ VHFDUD VLJQLILNDQ .RQVHQWUDVL 766 WHUHQGDK GLGDSDWNDQ SDGD XQLWoutlet filter

\DLWX PJ O -LND GLEDQGLQJNDQ GHQJDQ 3HUPHQ /+ WDKXQ PDND QLODL LQL WHODK PHPHQXKL

EDNX PXWX \DQJ GLWHWDSNDQ \DLWX PJ O XQWXN JRORQJDQ ,, .DUHQD QLODL 766 LQL EHUEDQGLQJ OXUXV

GHQJDQ NHNHUXKDQ PDND GLGDSDWNDQ QLODL NHNHUXKDQ SDGD RXWOHW ILOWHU VHEHVDU 178 *DPEDU

I

%HUGDVDUNDQ GDWD \DQJ GLGDSDWNDQ SDGD *DPEDU D GDSDW GLVLPSXONDQ EDKZD XQLW \DQJ SDOLQJ

HILVLHQ \DLWX outlet filter GHQJDQ QLODL UDWD UDWD VHEHVDU 3DGD XQLW filter NRQVHQWUDVL )H

PHQXUXQ NDUHQD XQLW LQL GLUDQFDQJ GHQJDQ PHQJJXQDNDQactivated sand\DQJ PHQJDQGXQJ SDVLU VLOLND

GDQ .0Q2 5HDNVL \DQJ WHUMDGL DGDODK VHEDJDL EHULNXW 1RYLWD 'LDQ

)H .0Q2 + 2Æ )H 2+ 0Q2 . + ««««««««««

3DGD XQLW ILOWHU LQL WHUGDSDW NRQWDN DQWDUD RNVLJHQ GDQ OLPEDK GHQJDQ FDUD PHPEHULNDQ MDUDN MDWXK OLQGL

VHEHOXP NH PHGLD SDVLU \DLWX VHWLQJJL FP VHKLQJJD GLKDUDSNDQ WHUMDGL SURVHV DHUDVL \DQJ DNDQ

PHPEDQWX SURVHV RNVLGDVL EHVL 1RYLWD 'LDQ '2 \DQJ GLSHUROHK SDGD VDDW SURVHV ILOWUDVL

GLGDSDWNDQ VHEHVDU PJ O *DPEDU G 6HODLQ LWX GDODP SHQHOLWLDQ LQL VDULQJDQactivated sand filter

(9)

WHUGDSDW NRPSRQHQ VXSHUQDWDQ DWDX JHQDQJDQ DLU GL DWDV PHGLD SDVLU 3DGD NRQGLVL WDN MHQXK KDQ\D VHEDJLDQ GDUL SRUL \DQJ WHULVL DLU VHGDQJNDQ VHOHELKQ\D EHULVL XGDUD .RQGLVL LQL PHPEHULNDQ NHXQWXQJDQ EHUXSD SHQLQJNDWDQ GD\D NRQWDN OLPEDK GHQJDQ XGDUD VDDW DLU PHOHZDWL SRUL SRUL SDVLU

3DGD SURVHV DHUDVL LQLODK SURVHV RNVLGDVL WHUMDGL 0HQXUXW 5LFK /LQYLO * S+ \DQJ EDLN XQWXN

SURVHV RNVLGDVL DGDODK DWDX QHWUDO GDQ EDQ\DN PHQJDQGXQJ RNVLJHQ VHGDQJNDQ QLODL S+ \DQJ

GLGDSDWNDQ SDGD XQLWoutlet filterLQL VHEHVDU GDSDW GLOLKDW SDGD*DPEDU G +DO LQL GLNDUHQDNDQ

XPXU 73$ \DQJ ! WDKXQ VHKLQJJD QLODL S+ OLQGL OHELK GDUL 5HQRXL HW DO 7DEHO

3HQXUXQDQ NDGDU EHVL GDODP DLU SDGD KDNLNDWQ\D PHQJXEDK GDUL EHQWXN \DQJ ODUXW GDODP DLU PHQMDGL PHQJHQGDS 5HDNVL RNVLGDVL )H ,, GDSDW WHUMDGL GDODP IDVD KRPRJHQ GDQ KHWHURJHQ VHVXDL GHQJDQ SHUVDPDDQ VWRLNLRPHWUL VHEDJDL EHULNXW 1RYLWD 'LDQ

)H ó 2 2+ ò + 2Æ)H 2+ «««««««««««««««««««

0HQXUXW 5LFK /LQYLO * QLODL .VS )H 2+ SDGD VXKX NDPDU VHEHVDU [ 6HPDNLQ NHFLO QLODL

.VS DNDQ VHPDNLQ VXNDU ODUXW GDODP SHODUXWQ\D .HODUXWDQ ORJDP )H PHPLOLNL QLODL SDOLQJ UHQGDK MLND

GLEDQGLQJNDQ GHQJDQ ORJDP ODLQQ\D VHSHUWL &X =Q GDQ 0Q 1LODL .VS )H GDSDW GLOLKDW SDGD7DEHO

7DEHO 1LODL .HODUXWDQ /RJDP )H

3DUDPHWHU .VS S+ 7HRUL S+ SDGD 3HQJRSHUDVLDQ (ILVLHQVL 3HQ\LVLKDQ SDGD 3HQJRSHUDVLDQ .H 5DWD UDWD %HVL )H )H 2+ Æ [

(Sumber: Hasil Perhitungan; Sugihhartati, dkk, 2013)

3HUEDQGLQJDQ 'HQJDQ %DNX 0XWX

%HUGDVDUNDQ GDWD \DQJ GLGDSDWNDQ WHUMDGL SHQXUXQDQ NRQVHQWUDVL )H GDUL NDUDNWHULVWLN DZDO \DLWX PJ O GDQ VHWHODK GLODNXNDQ SHQJRODKDQ ROHK ,3/& GLGDSDWNDQ NRQVHQWUDVL DNKLU )H VHEHVDU

PJ O SDGD SHUFREDDQ SHUWDPD GDQ PJ O SDGD SHUFREDDQ NHGXD

.(6,038/$1

8QLW \DQJ RSWLPXP GDODP PHQ\LVLKNDQ ORJDP EHUDW )H DGDODK XQLW RXWOHW ILOWHU .RQGLVL S+ \DQJ

GLGDSDWNDQ EHUNLVDU DQWDUD QLODL '2 EHUNLVDU DQWDUD PJ O %HUGDVDUNDQ KDVLO

SHQHOLWLDQ ,3/& PDPSX PHQ\LVLKNDQ )H VHEHVDU GDUL NRQVHQWUDVL DZDO

'$)7$5 3867$.$

> @ %DULJXQD 'LSR 6WXGL 7LQJNDW .HNHUXKDQ $LU 0HQJJXQDNDQ &LWUD 5DGDU $LUVDU ,3%

%RJRU

> @ 'DPDQKXUL ( 'LNWDW 7HNQLN 3HQJHORODDQ 6DPSDK 3HQHUELW ,7% %DQGXQJ

> @ 'DUPRQR /RJDP 'DODP 6LVWHP %LRORJL 0DKOXN +LGXS 8, 3UHVV -DNDUWD

> @ 'ZRUNLQ 0 )DONRZ 6 5RVHQEHUJ ( 6FKOHLIHU . + 6WDFNHEUDQGW ( 7KH

SURNDU\RWHV WKLUG 6\PELRWLF $VVRFLDWLRQ %LRWHFKQRORJ\ $SSOLHG 0LFURELRORJ\ 9RO

> @ (IIHQGL + 7HODDK .XDOLWDV $LU EDJL 3HQJRODKDQ 6XPEHU 'D\D GDQ /LQJNXQJDQ

3HUDLUDQ 3HQHUELW .DQLVLXV <RJ\DNDUWD

> @ )DLU DQG *H\HU - & :DWHU DQG :DVWHZDWHU 7UHDWPHQW -RKQ :LOH\ DQG 6RQV ,QF 1HZ

<RUN

> @ *UD\ 1 ) Biology of wastewater treatment 9RO :RUOG 6FLHQWLILF

> @ .DGOHF 5 + Comparison of Free Water and Horizontal Subsuface Treatment

Wetlands. Ecological Enggineering,9RO S

> @ 0XFKWDGL ' (YDOXDVL 1LODL *L]L 3DQJDQ 'HSDUWHPHQ 3HQGLGLNDQ GDQ .HEXGD\DDQ

'LUHNWRUDW -HQGHUDO 3HQGLGLNDQ 7LQJJL 3XVDW $QWDU 8QLYHUVLWDV 3DQJDQ GDQ *L]L ,QVWLWXW 3HUWDQLDQ %RJRU %RJRU

(10)

> @ 1RYLWD 'LDQ 6DULQJDQ 3DVLU .HULQJ $NWLI Ununiform VHEDJDL $OWHUQDWLI 3HQXUXQDQ .RQVHQWUDVL %HVL GDQ 0DQJDQ GDODP $LU 7DQDK ,WHQDV %DQGXQJ

> @ 3DOODU + 3HQFHPDUDQ GDQ 7RNVLNRORJL /RJDP %HUDW 5LQHND &LSWD -DNDUWD

> @ 3DUVRQV Impact of Landfill Closure Design on Long- Term Natural Attenuation of

Chlorinated Hydrocarbons (QYLURQPHQWDO 6HFXULW\ 7HFKQRORJ\ &HUWLILFDWLRQ 3URJUDP $UOLQJWRQ

> @ 3HUDWXUDQ 0HQWHUL /LQJNXQJDQ +LGXS GDQ .HKXWDQDQ 5HSXEOLN ,QGRQHVLD 1RPRU 7DKXQ

7HQWDQJ %DNX $LU /LPEDK

> @ 3HUDWXUDQ 0HQWHUL /LQJNXQJDQ +LGXS GDQ .HKXWDQDQ 5HSXEOLN ,QGRQHVLD 1RPRU

3 0HQOKN 6HWMHQ .XP 7HQWDQJ %DNX PXWX /LQGL %DJL 8VDKD GDQ DWDX .HJLDWDQ

7HPSDW 3HPURVHVDQ $NKLU 6DPSDK

> @ 3UDWDPD < GDQ 6ROHK $ = ,GHQWLILNDVL )DNWRU )DNWRU 'RPLQDQ \DQJ 0HPSHQJDUXKL

3HQLODLDQ 0DV\DUDNDW WHUKDGDS .HEHUODQJVXQJDQ 73$ 6DULPXNWL GL .DEXSDWHQ %DQGXQJ -XUQDO ,OPLDK 8QSDG 8QLYHUVLWDV 3DGMDMDUDQ %DQGXQJ

> @ 5DV\DKLG 6RFD (IHNWLILWDV ,QVWDODVL 3HQJRODKDQ /LQGL ,3/ Compact 'DODP

0HQ\LVLKNDQ 2UJDQLN 'DQ 3DGDWDQ 7HUVXVSHQVL 'HQJDQ 6LVWHP $OLUDQ .RQWLQX ,WHQDV %DQGXQJ

> @ 5HQRXL HW DO ³/DQGILOO /HDFKHWH 7UHDWPHQW 5HYLHZ DQG 2SSRUWXQLW\´ Journal of

Hazardous Materials

> @ 5LFK /LQYLO G. 8QLW 3URFHVVHV RI 6DQLWDU\ (QJLQHHULQJ -RKQ :LOH\ DQG 6RQV ,QF 1HZ

<RUN

> @ 5RFKPDK /HOD (IHNWLILWDV ,QVWDODVL 3HQJRODKDQ /XPSXU 7LQMD ,3/7 Compact 'DODP

0HQ\LVLKNDQ 2UJDQLN 'DQ 3DGDWDQ 7HUVXVSHQVL 'HQJDQ 6LVWHP $OLUDQ .RQWLQX ,WHQDV %DQGXQJ

> @ 6WDQGDU 1DVLRQDO ,QGRQHVLD 7DWD &DUD 3HQJXNXUDQ '2 2OHK (OHFWURPHWUL 9RO 61,

%DGDQ 6WDQGDULVDVL 1DVLRQDO -DNDUWD

> @ 6WDQGDU 1DVLRQDO ,QGRQHVLD 7DWD &DUD 3HQJXNXUDQ .HNHUXKDQ 2OHK 7XUELGLPHWUL 9RO

61, %DGDQ 6WDQGDULVDVL 1DVLRQDO -DNDUWD

> @ 6WDQGDU 1DVLRQDO ,QGRQHVLD 7DWD &DUD 3HQJXNXUDQ S+ 2OHK (OHFWURGD 3RWHQVLRPHWUL

9RO 61, %DGDQ 6WDQGDULVDVL 1DVLRQDO -DNDUWD

> @ 6WDQGDU 1DVLRQDO ,QGRQHVLD 7DWD &DUD 3HQJXNXUDQ 766 6HFDUD *UDYLPHWUL 9RO 61,

%DGDQ 6WDQGDULVDVL 1DVLRQDO -DNDUWD

> @ 6WDQGDUG 0HWKRGV IRU ([DPLQDWLRQ :DWHU DQG :DVWHZDWHU American Public: Health.

> @ 6XJLKKDUWDWL 'M 5DFKPDZDWL &KHGO\ 7L]DRXL 1LGDO +LODO Removal of metals (copper,

manganese, nickel and zinc) from waters by activated unsaturated sand filter $86) -XUXVDQ 7HNQLN /LQJNXQJDQ ,WHQDV %DQGXQJ

> @ 7FKREDQRJORXV *HRUJH DQG 7KHLVHQ + 9LJLO 6$ Integrated Solid Waste Management:

Engineering Principles and Management Issues 0F*UDZ +LOO ,QF 1 <

> @ 7FKREDQRJORXV * HW DO :DVWHZDWHU (QJLQHHULQJ 7UHDWPHQW DQG 5HVRXUFH 5HFRYHU\

0HWFDOI (GG\ , $(&20 0F*UDZ +LOO %RRN &RPSDQ\ 1HZ <RUN 1< 86$

> @ 9RJHO 2UJDQLF &KHPLVWU\ $PHULFDQ %RRN &RPSDQ\ 1HZ <RUN

> @ 9RJHO Buku Teks Analisis Secara Kualitatif Makro dan Semimikro 37 .DOPDQ 0HGLD

Referensi

Dokumen terkait

Sedangkan hasil yang diperoleh dari skenario 2 yaitu dengan hasil ruas Soekarno Hatta (arah ke Universitas Brawijaya) dengan tingkat pelayanan A dengan DS sebesar 0,34;

Akhiri (2016) menyatakan bahwa inovasi produk dapat berfungsi untuk memberikan harapan bagi konsumen yang ingin membeli sepatu-sepatu dengan model yang baru dan

Sementara itu, postest diberikan untuk mengetahui kemampuan berpikir kritis siswa pada materi sistem pernapasan manusia setelah diberi perlakuan dengan mengunakan

Sebagai tindak lanjut hasil penelitian sebelum- nya, penelitian ini dilakukan untuk mengkaji pengaruh penggemukan sapi lokal berbasis serealia dengan taraf energi pakan yang

Paling sedikit jumlah telur yang tertangkap yaitu pada atraktan air rendaman udang windu sejumlah 2 telur dari ovitrap yang terletak di luar rumah sedangkan untuk

Zastupljenost korova na tretiranoj varijanti - Weed Distribution in the Treated Variant ŽF LF Vrsta korova Weed species Broj jedinki po m 2 No of weed plants m -2 % zastupljenosti

Tujuan dari penelitian ini adalah untuk mengetahui variabel UTAUT yang mempengaruhi minat mahasiswa untuk melakukan akses ke dalam Sistem Informasi Kemahasiswaan di

Penelitian ini dilakukan untuk mengembangkan media pembelajaran simulasi dengan model pembelajaran kooperatif tipe teams game tournament agar siswa mampu belajar