Tampilan Petugas: MODIFIKASI COOLING TOWER TIPE INDUCED DRAFT ALIRAN COUNTERFLOW ( MODIFICATION INDUCED DRAFT COOLING TOWER TYPE FLOW COUNTERFLOW )

MODIFIKASI COOLING TOWER TIPE INDUCED DRAFT ALIRAN COUNTERFLOW ( MODIFICATION INDUCED DRAFT COOLING TOWER TYPE FLOW COUNTERFLOW )

Main Authors:	Setiawan, Dwi Angga , Ariwibowo, Didik
Format:	Thesis NonPeerReviewed application/pdf
Terbitan:	, 2014
Subjects:	TJ Mechanical engineering and machinery
Online Access:	http://eprints.undip.ac.id/44880/3/BAB_II_Landasan_Teori.pdf http://eprints.undip.ac.id/44880/2/BAB_I_Pendahuluan.pdf http://eprints.undip.ac.id/44880/1/Cover%2C_Dft_Isi%2C_Abstrak%2C_dll.pdf http://eprints.undip.ac.id/44880/4/BAB_III_Proses_Modifikasi.pdf http://eprints.undip.ac.id/44880/5/BAB_IV_Hasil_dan_Pembahasan.pdf http://eprints.undip.ac.id/44880/6/BAB_V_Penutup.pdf http://eprints.undip.ac.id/44880/

ctrlnum	44880
fullrecord	<?xml version="1.0"?> <dc schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd"><title>MODIFIKASI COOLING TOWER TIPE INDUCED DRAFT ALIRAN COUNTERFLOW ( MODIFICATION INDUCED DRAFT COOLING TOWER TYPE FLOW COUNTERFLOW ) </title><creator>Setiawan, Dwi Angga </creator><creator>Ariwibowo, Didik</creator><subject>TJ Mechanical engineering and machinery</subject><description>Proses Modifikasi Cooling Tower Tipe Induced Draft Aliran Counterflow bertujuan untuk meningkatkan performa cooling tower yang sebelumnya masih terdapat kekurangan. Modifikasi cooling tower ini dilakukan dengan menambahkan pipa PVC setinggi 20 cm sebagai bahan pengisi, mengganti exhaust fan yang lama dengan exhaust fan yang baru, serta menambahkan komponen indikator seperti temperature suhu, dan RH meter. Pada proses modifikasi cooling tower ini dilakukan dengan beberapa pendekatan diantaranya termodinamika, perpindahan kalor dan mekanika fluida Penelitian dilakukan dengan menggunakan alat ukur thermometer, thermohygrometer, anemometer, dan flowmeter pada cooling tower. Hasil pengujian dengan menggunakan kapasitas 2 l/min sampai 22 l/min menunjukkan bahwa efektivitas cooling tower berkisar 21,71 % s.d. 41,05 % dengan rata-rata 26,65 %; cooling range 5,3 ̊C sampai 9,4 ̊C dengan rata-rata 6,75 ̊C; approach berkisar 13,5 ºC sampai 20,4 ºC dengan rata-rata 18,65 ̊C. Kapasitas pendinginan berkisar 1,31 kW s.d. 12,47 kW dengan rata – rata 5,40 kW. Perbandingan L/G 0,0784 s.d 0,4582 dengan rata-rata L/G 0.2447 (kg air/ kg udara). Number of transfer unit (NTU) berkisar 0,1368 s.d. 1,5713 dengan rata - rata NTU 0,6950 kW/(kj/kg beda entalpi). Number of transfer unit (NTU) berkisar 0,3623 s.d. 1,6161 dengan rata - rata NTU 0,8023 kW/(kj/kg beda entalpi). Kata kunci : cooling tower, modifikasi, efektivitas, cooling range, approach, kapasitas pendinginan Modification Process Induced Draft Cooling Tower with Counterflow is made to improve cooling tower performance that previously there are still shortcomings. Cooling tower modification is done by adding the height of 20 cm PVC pipe as a filler material, replacing the old exhaust fan exhaust fan with a new one, and adding components such as temperature indicators temperature and RH meter. In the process of cooling tower modification is done by several approaches including thermodynamics, heat transfer and fluid mechanics. The study was conducted by using a thermometer measuring devices, thermohygrometer, anemometer, and a flowmeter on the cooling tower. The test results by using the capacity of 2 l/m into 22 l/m in showed that the effectiveness of cooling tower range 21,71% to 41,05% with an average of 26,65%; cooling range of 5,3 ºC to 9,4 ºCwith an average of 6,75C; approach ranges from 13,5 ºC to 20,4 ºC with an average of 18,65 ºC. Capacity of cooling range 1,31 kW to 12,47with an average 5,40 kW.Comparison of L/G of 0,0784 to 0,4582 withan average L/G 0.2447 (kg water/kgair). ). Comparison of NTU about 0,3623 to 1,6161 with an average NTU 0,8023 kW/(kJ/kg different enthalpy). Keywords: cooling tower, modification, effectiveness, coolingrange, approach, cooling capacity </description><date>2014-11</date><type>Thesis:Thesis</type><type>PeerReview:NonPeerReviewed</type><type>File:application/pdf</type><identifier>http://eprints.undip.ac.id/44880/3/BAB_II_Landasan_Teori.pdf</identifier><type>File:application/pdf</type><identifier>http://eprints.undip.ac.id/44880/2/BAB_I_Pendahuluan.pdf</identifier><type>File:application/pdf</type><identifier>http://eprints.undip.ac.id/44880/1/Cover%2C_Dft_Isi%2C_Abstrak%2C_dll.pdf</identifier><type>File:application/pdf</type><identifier>http://eprints.undip.ac.id/44880/4/BAB_III_Proses_Modifikasi.pdf</identifier><type>File:application/pdf</type><identifier>http://eprints.undip.ac.id/44880/5/BAB_IV_Hasil_dan_Pembahasan.pdf</identifier><type>File:application/pdf</type><identifier>http://eprints.undip.ac.id/44880/6/BAB_V_Penutup.pdf</identifier><identifier>Setiawan, Dwi Angga and Ariwibowo, Didik (2014) MODIFIKASI COOLING TOWER TIPE INDUCED DRAFT ALIRAN COUNTERFLOW ( MODIFICATION INDUCED DRAFT COOLING TOWER TYPE FLOW COUNTERFLOW ). Undergraduate thesis, D3 Teknik Mesin.</identifier><relation>http://eprints.undip.ac.id/44880/</relation><recordID>44880</recordID></dc>
format	Thesis:Thesis Thesis PeerReview:NonPeerReviewed PeerReview File:application/pdf File
author	Setiawan, Dwi Angga Ariwibowo, Didik
title	MODIFIKASI COOLING TOWER TIPE INDUCED DRAFT ALIRAN COUNTERFLOW ( MODIFICATION INDUCED DRAFT COOLING TOWER TYPE FLOW COUNTERFLOW )
publishDate	2014
topic	TJ Mechanical engineering and machinery
url	http://eprints.undip.ac.id/44880/3/BAB_II_Landasan_Teori.pdf http://eprints.undip.ac.id/44880/2/BAB_I_Pendahuluan.pdf http://eprints.undip.ac.id/44880/1/Cover%2C_Dft_Isi%2C_Abstrak%2C_dll.pdf http://eprints.undip.ac.id/44880/4/BAB_III_Proses_Modifikasi.pdf http://eprints.undip.ac.id/44880/5/BAB_IV_Hasil_dan_Pembahasan.pdf http://eprints.undip.ac.id/44880/6/BAB_V_Penutup.pdf http://eprints.undip.ac.id/44880/
contents	Proses Modifikasi Cooling Tower Tipe Induced Draft Aliran Counterflow bertujuan untuk meningkatkan performa cooling tower yang sebelumnya masih terdapat kekurangan. Modifikasi cooling tower ini dilakukan dengan menambahkan pipa PVC setinggi 20 cm sebagai bahan pengisi, mengganti exhaust fan yang lama dengan exhaust fan yang baru, serta menambahkan komponen indikator seperti temperature suhu, dan RH meter. Pada proses modifikasi cooling tower ini dilakukan dengan beberapa pendekatan diantaranya termodinamika, perpindahan kalor dan mekanika fluida Penelitian dilakukan dengan menggunakan alat ukur thermometer, thermohygrometer, anemometer, dan flowmeter pada cooling tower. Hasil pengujian dengan menggunakan kapasitas 2 l/min sampai 22 l/min menunjukkan bahwa efektivitas cooling tower berkisar 21,71 % s.d. 41,05 % dengan rata-rata 26,65 %; cooling range 5,3 ̊C sampai 9,4 ̊C dengan rata-rata 6,75 ̊C; approach berkisar 13,5 oC sampai 20,4 oC dengan rata-rata 18,65 ̊C. Kapasitas pendinginan berkisar 1,31 kW s.d. 12,47 kW dengan rata – rata 5,40 kW. Perbandingan L/G 0,0784 s.d 0,4582 dengan rata-rata L/G 0.2447 (kg air/ kg udara). Number of transfer unit (NTU) berkisar 0,1368 s.d. 1,5713 dengan rata - rata NTU 0,6950 kW/(kj/kg beda entalpi). Number of transfer unit (NTU) berkisar 0,3623 s.d. 1,6161 dengan rata - rata NTU 0,8023 kW/(kj/kg beda entalpi). Kata kunci : cooling tower, modifikasi, efektivitas, cooling range, approach, kapasitas pendinginan Modification Process Induced Draft Cooling Tower with Counterflow is made to improve cooling tower performance that previously there are still shortcomings. Cooling tower modification is done by adding the height of 20 cm PVC pipe as a filler material, replacing the old exhaust fan exhaust fan with a new one, and adding components such as temperature indicators temperature and RH meter. In the process of cooling tower modification is done by several approaches including thermodynamics, heat transfer and fluid mechanics. The study was conducted by using a thermometer measuring devices, thermohygrometer, anemometer, and a flowmeter on the cooling tower. The test results by using the capacity of 2 l/m into 22 l/m in showed that the effectiveness of cooling tower range 21,71% to 41,05% with an average of 26,65%; cooling range of 5,3 oC to 9,4 oCwith an average of 6,75C; approach ranges from 13,5 oC to 20,4 oC with an average of 18,65 oC. Capacity of cooling range 1,31 kW to 12,47with an average 5,40 kW.Comparison of L/G of 0,0784 to 0,4582 withan average L/G 0.2447 (kg water/kgair). ). Comparison of NTU about 0,3623 to 1,6161 with an average NTU 0,8023 kW/(kJ/kg different enthalpy). Keywords: cooling tower, modification, effectiveness, coolingrange, approach, cooling capacity
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institution	Universitas Diponegoro
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library	Perpustakaan Universitas Diponegoro
library_id	485
collection	Diponegoro University Institutional Repository
repository_id	2852
city	SEMARANG
province	JAWA TENGAH
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first_indexed	2016-09-15T18:36:09Z
last_indexed	2016-09-22T21:21:20Z
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MODIFIKASI COOLING TOWER TIPE INDUCED DRAFT ALIRAN COUNTERFLOW ( MODIFICATION INDUCED DRAFT COOLING TOWER TYPE FLOW COUNTERFLOW )

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