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"Penelitian ini bertujuan untuk mengetahui efisiensi aplikasi teknologi ozonasi katalitik menggunakaan Granular Activated Carbon (GAC) pada penyisihan COD, NH3, Coliform dan senyawa antibiotik (turunan fenol) dalam limbah cair rumah sakit. Limbah cair yang digunakan berasal dari limbah cair Rumah Sakit Bumi Waras yang belum memasuki instalasi pengolahan air limbah (IPAL).Variabel kondisi operasi yang divariasikan pada proses penyisihan senyawa antibiotik (turunan fenol), COD, NH3, dan Coliform dalam limbah cair menggunakan teknologi ozonasi katalitik adalah konfigurasi sistem pengolahan limbah (Ozon, Ozon/UV, Ozon/GAC, Ozon/UV/GAC) dan waktu penyisihan (0, 15, 30, 45, 60, 120 menit). Analisis yang digunakan meliputi metode 4-Aminoantipirin untuk senyawa antibiotik (turunan fenol), metode Refluks tertutup untuk COD, metode Nessler untuk NH3, dan metode Total plate count untuk Coliform.Setelah dilakukan penelitian, diketahui bahwa konfigurasi Ozon/UV merupakan konfigurasi yang paling tepat digunakan untuk Instalasi Pengolahan Air Limbah (IPAL) di Rumah Sakit Bumi Waras, Bandar Lampung. Konfigurasi Ozon/UV secara signifikan mampu menyisihkan kandungan antibiotik (turunan fenol) 64%, COD 60%, NH3 10,71%, Coliform total 98,89%, dan E.Coli 100%.

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The present study was aimed at determining the efficiency of catalytic ozone technology applications using Granular Activated Carbon (GAC) on the removal of COD, NH3, Coliform and antibiotic compounds (phenol derivatives) in the treated wastewater. The liquid waste was derived from wastewater of Bumi Waras Hospital that had not entered yet to wastewater treatment plant (WWTP).

Operating conditions variable that varied in Coliform the process of removal antibiotic compounds (phenol derivatives), COD, NH3, and in wastewater using catalytic ozone technology is the configuration of wastewater treatment system (Ozone, Ozone/UV, Ozone/GAC, Ozone/UV/GAC) and time of removal process (0, 15.30, 45, 60, 120 minutes).

The results were analyzed wich comprising of antibiotic compounds (phenol derivatives) by 4-Aminoantipyrine method, COD by Closed reflux method, NH3-N by Nessler method, and Coliform by Total plate count. The result of study shown that the configuration of Ozone/ UV was the most appropriate configuration for Waste Water Treatment Plant (WWTP) at Bumi Waras Hospital, Bandar Lampung. Configuration Ozone/ UV was significantly capable of removing antibiotic content (phenol derivatives), COD, NH3, Coliform total, and E.coli by 64%, 60%, 10.71%, 98.89%, and 100%, respectively."

"Tugas akhir ini membahas tentang sistem pendingin adsorpsi dua adsorber dengan menggunakan pasangan karbon aktif - metanol. Pada aplikasinya sumber energi pada mesin pendingin adsopsi ini diperoleh dari panas gas buang hasil pembakaran, namun pada percobaan dipakai minyak goreng dengan temperature 150°C. Sistem ini menggunakan metanol pro-analisis (99.99%) sebanyak 1000 mL sebagai refrigeran yang memiliki karakteristik zero ozone depletion potential (ODP) dan zero global warming potential (GWP) dan karbon aktif sebagai adsorbennya. Pada Mesin pendingin adsopsi ini tidak terdapat kebocoran dan dapat dipakai pada tekanan sampai -76 cmHg. Temperatur terendah yang dapat dicapai alat ini adalah 9.6°C dari temperatur awal 20.7°C.

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This final project discuss about the adsorption system with two adsorber which uses active carbon and methanol. The energy resources of this adsorption system is come from the exhoust gases resulted from a combustion engine, but in this experiment, vegetable oil is used at the temperature at 150°C. This system uses 1000 mL. Methanol proanalysis (99.99%) as the refrigrant which has zero ozone depletion potensial and zero global warming potensial and active carbon is used as the adsorbent. There is no leakage happen in this system and it can be used until the pressure -76cmHg. The lowest temperature that can be reach with this system is 9.6°C and the initial temperature is 20.7°C."

"This book provides researchers and graduate students with an overview of the latest developments in and applications of adsorption processes for water treatment and purification. In particular, it covers current topics in connection with the modeling and design of adsorption processes, and the synthesis and application of cost-effective adsorbents for the removal of relevant aquatic pollutants. The book describes recent advances and alternatives to improve the performance and efficacy of this water purification technique. In addition, selected chapters are devoted to discussing the reliable modeling and analysis of adsorption data, which are relevant for real-life applications to industrial effluents and groundwater. Overall, the book equips readers with a general perspective of the potential that adsorption processes hold for the removal of emerging water pollutants. It can readily be adopted as part of special courses on environmental engineering, adsorption and water treatment for upper undergraduate and graduate students. Furthermore, the book offers a valuable resource for researchers in water production control, as well as for practitioners interested in applying adsorption processes to real-world problems in water treatment and related areas."