DATABASE TEKNOLOGI LINGKUNGAN
Rekapitulasi Jumlah Koleksi dalam Database
| No | Kategori | Jumlah |
| 1 | Teknologi Pengolahan Air Bersih | 104 |
| 2 | Teknologi Pengolahan Air Limbah | 86 |
| 3 | Teknologi Pengelolaan Air | 7 |
| 4 | Teknologi Pengelolaan Sampah | 22 |
| 5 | Teknologi Pemantauan Gas | 12 |
| 6 | Teknologi Lingkungan | 535 |
| 7 | Teknologi Informasi dan Komputer | 33 |
| 8 | Teknologi Penanganan POPs | 15 |
| TOTAL | 814 | |
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Menampilkan 221-240 dari 814 item.
| # | Judul | Abstrak | Katakunci | Penulis | |
|---|---|---|---|---|---|
| 221 | Pentingnya Penerapan Eco Industrial Park (EIP) di Indonesia | Industrial manufacture is one of economical pillar that continuously develop the nationality economic development which is spread out in Indonesian region in industrial estate or in industrial zone. Industrial estate as a place of industrial estate is managed by industrial estate and also completely by infrastructure and supporting structure. By the developing of global trading issue and environmental requirement, climate change and emission reduction, also the role of national industry become more important, then through Eco Industrial Park, it is integrated between social economic and environment in consistently therefore it is able to make an sustainability industrial estate and it will give important meaning to implement Eco Industrial Park. | Lestario Widodo | ||
| 222 | Penjernihan Air Menggunakan Arang Sekam Padi | Penjernih Air Minum, Air Pedesaan, Penyaringan Air, Sekam Padi | Teknologi Pengolahan Air Bersih | air@bppt.go.id | |
| 223 | Penjernihan Air Dengan Cara Penyaringan II | Penjernih Air Minum, Air Pedesaan, Penyaringan Air | Teknologi Pengolahan Air Bersih | air@bppt.go.id | |
| 224 | Penjernihan Air Dengan Cara Penyaringan I | Penjernih Air Minum, Air Pedesaan, Penyaringan Air | Teknologi Pengolahan Air Bersih | air@bppt.go.id | |
| 225 | Penjernihan Air Dengan Cara Penyaringan dan Bahan Kimia II | Penjernih Air Minum, Air Pedesaan, Penyaringan Air | Teknologi Pengolahan Air Bersih | air@bppt.go.id | |
| 226 | Penjernihan Air Dengan Cara Penyaringan dan Bahan Kimia I | Penjernih Air Minum, Air Pedesaan, Penyaringan Air | Teknologi Pengolahan Air Bersih | air@bppt.go.id | |
| 227 | Penjernihan Air Dengan Biji Kelor (Moringa Oleifera) | Penjernih Air Minum, Air Pedesaan, Penyaringan Air, Biji kelor | Teknologi Pengolahan Air Bersih | air@bppt.go.id | |
| 228 | Peningkatan Produktivitas Lahan Melalui Pemanfaatan Biomas Tanaman Flemengia Congesta Untuk? | biomass, fence crop, corn | Teknologi Lingkungan | air@bppt.go.id | |
| 229 | Peningkatan Kualitas Air Sungai Untuk Irigasi Persawahan Padi Dengan Sistem "Kontrol Ph" | Bengkalis district has a population of 690,366 people spread in the area of 11,481.77 Km2. Natural resources potencial in this area is quite large, so that local Government has a high commitment to meet the demand of local food, and even regional. To implement this goal, local government will build irrigation systems to irrigate 1,500 ha of rice field land which decrease of water in dry season. However, there are some constraints experienced are : the river for irrigation water source is located near the beach, so it is influenced by tidal sea water. Besides, the peat moss water contains a high organic matter and acid. To solve this problem, we need to treat the river water for irrigation, so that its quality meets the requirement for agriculture. While tidal conditions can be set with the pumping time. From the results of the research in the laboratory showed that the river water pH = 4 while the river water quality standard for the rice field is the appropriate 5 - 9 mg/l. Therefore, the required water treatment to raise pH to comply with the standard quality of water for agriculture. Research conducted in the village Langkat, district Siak Kecil. This activity includes laboratory research, design creation tool to increase pH river water irrigation, tools development, up to the trials and monitoring. | Peningkatan Kualitas Air, Irigasi Persawahan, Kontrol pH | Ir. Setiyono, M.Si dan Ir. Sri Rahayu, M.T. | |
| 230 | Peningkatan Faktor Daya Dengan Pemasangan Bank Kapasitor Untuk Penghematan Listrik Di Industri Semen | that the installation of Capacitor bank at power factor in plant assessment can increase energy use up to 3 MVA, with this increasing automatically the energy can be used for other equipment. Therefore, the prediction of cost saving from electricity can raised more than 11 billion rupiahs. Even though, the installation of capacitor bank, cannot be implemented considering the high cost, but it is the main priority of the management. | cement, Electrical, Capacitor bank | Teguh Prayudi dan Wiharja | |
| 231 | Peningkatan Efisiensi Pembakaran pada Boiler Melalui Penerapan Produksi Bersih Kasus | Wiharja dan Joko Priyatno Susanto | |||
| 232 | Peningkatan Efisiensi Energi Sebagai Upaya Mengatasi Dampak Penggunaan Energi Pada Lingkungan | As the energy consumption continues to increase, pollutants and greenhouse gases emissions from the energy utilization also increases. The increase of those emissions has impacts on environmental problems that harmful for the ecosystem and the population. Program action needed to reduce the energy consumption. Improving the effi ciency of energy use is the most effective way to address simultaneously several national issues. It is not only can reduce the energy consumption, but also it can reduce the pollutant and greenhouse gases emissions. The program also can strengthen the national energy security. The energy effi ciency program has been implemented in some countries, but Japan is the most advance country on energy effi ciency | energy effi ciency, pollutant emission, greenhouse gases emissio. | Endang Suarna | |
| 233 | Peningkatan Sistem Teknologi pengolahan Air Melalui Pengembangan Sistem Informasi. | Clean water needs waste water treament will be a serius problem for indrustry especially for food indrustries. The packet information of applicable technology for water treatment aand indrustrial waste handling that san support any development sector nowdays is needed by any kind of society especially for small and medium enterprise players. To face on globlisation, the computer and information technology will be used as an important tools for distributing thr packet of technology from R&D community to any kind of society through global network. By using the exisitng network infrastrycture in the country, the packet information of technology will be distributed electrically specially to help group oif small and medium industry. As pilot project, this activity chooses the tahu/tempe industry located in technology, we try to help craftsman to resolve their problem on clean water supply and waste, so they can increase their product quality. | air bersih, air limbah cair,sistem informasi, internet, hypertext, multimedia | Heru Dwi Wahjono | |
| 234 | Penigkatan Efisiensi Perusahaan Melalaui Konsep Non Produk Output (Npo) Sebagai Bagian Internalisasi | Non product output (NPO) is one of the way to know the level of wasting on the production process of industry. Through the NPO budget calculation as part of internal environment budget in industrial scale, therefore it can be known the riel environment budget, also to be the entry point to improving the efficiency level and the benefit of company, and also the increasing of environmental performance. | Non Product Output. | Lestario Widodo dan Wiharja | |
| 235 | Pengurangan Chrom (Cr) Dalam Limbah Cair Industri Kulit Pada Proses Tannery Menggunakan ? | One of the industries that use hazardous and toxic (B3) on the production process is leather tannery industry, with a compound chromium (Cr). Chromium in the compound, including heavy metals that have a known toxicity of high power. Alkali compound is Ca(OH)2, NaOH,and NaHCO3 the chemicals that can be used for processing liquid waste leather tannery industry that contains chromium, which works to raise the pH and precipitate chromium solution so produced chrome hidroksida in the form of chromium (Cr(OH)3). Results of research it was found that the pH optimum for alkali compound at each pH condition 8, the separation efficiency of 99.28% chromium compound using alkali Ca (OH) 2 and NaOH, while the use of 98.50% NaHCO3. Alkali compound which most effective review of technical aspects to a decrease in the concentration of chromium in leather tannery wastewater is NaOH, because with a small dose is able to separate the chromium in the wastewater with a high efficiency (99.28%), while the most economical and is recommended for applications is in the Ca(OH)2. | Ca(OH)2, Cr2O3, separation efficiency, hidroksida chromium (Cr(OH)3), NaHCO3 ? | Asmadi*, Endro.S**, dan W. Oktiawan** | |
| 236 | Penguraian Deterjen Secara Biologis Di Dalam Reaktor Untuk Pengolahan Air Minum. | Penggunaan bahan deterjen oleh masyarakat di negara berkembang , khususnya di Indonesia telah menyebabkan masalah yang cukup serius. Deterjen sintetis terutama jenis anionic telah digunakan secara luas di Indonesia sejak 20 tahun terakhir, sehingga residunya telah mengakibatkan pencemaran sungai, danau, laut maupun air tanah dangkal. Masalah tersebut menjadi lebih serius khususnya di kota-kota besar yang padat penduduknya, bahkan deterjen telah mencemari sungai-sungai yang digunakan sebagai sumber air minum. Berdasarkan alasan tesebut diatas, perlu dikembangkan teknologi yang murah (low-cost technology) untuk mengatasi masalah pencemaran deterjen terutama untuk keperluan pengolahan air minum, misalnya, yakni mengembangkan teknologi proses pengolahan air minum secara biologis. Penelitian tentang penguraian deterjen jenis anionic (LAS) secara biologis di dalam bench scale reaktor biologis secara kontinyu yang diisi (seeding) dengan lumpur biologis telah dilakukan. Dengan meng-gunakan proses tersebut dapat menghilangkan deterjen anionic (LAS) sekitar 60 sampai 78 %. | Deterjen, Sintetis, Residu, Teknologi Proses, LAS | Ir. Nusa Idaman Said, M.Sc. | |
| 237 | Penguraian Deterjen Dalam Air Minum Dengan Karbon Aktif Biologis. | Pencemaran deterjen pada air baku minum di kota-kota besar di Indonesia saat ini masih menjadi masalah yang cukup serius, khususnya di dalam proses pengolahan air minum untuk masyarakat. Untuk mengatasi hal tersebut perlu dikembangkan teknologi proses yang lebih baik dan murah. Salah satu alternatif yakni pengolahan air minum dengan menggunakan karbon aktif biologis (Biological Activated Carbon, BAC). Studi tentang penguraian deterjen di dalam sistem pengolahan secara biologis kontinyu dengan menggunakan karbon aktif biologis yakni campuran antara lumpur biologis (lumpur danau Biwa) dengan karbon aktif bubuk 90 mg/l telah dilakukan. Dengan sistem pengolahan tersebut didapatkan efisiensi penghilangan deterjen sekitar 80 - 90 %. | Deterjen, Karbon Aktif Biologis, BAC, Lumpur Biologis | Ir. Nusa Idaman Said, M.Sc. | |
| 238 | Pengukuran Landfill Gas Pada Lapisan Kedua Pilot Plant Dry Cell Di Tpa Bangklet? | Sanitary Landfill, Monitoring, Collecting & Measuring Landfill Gas. | Teknologi Lingkungan | inugardjoho@yahoo.com | |
| 239 | Pengukuran Kawasan Industri Terhadap Konsep ECO Industri Park | Scarcity of resources and environmental quality degradation stimulated government policy toward a new concept of Eco-Industial Park in managing and developing industrial estate in Indonesia. For applying the concept of EIP need conducted measurement of recent industrial estate status to EIP. This Article aim to develop a measurement instrument and to measure some selected industrial estates. Measurement using developed instrument indicate that most industrial estastes have low status. The low status is generally influenced by the lowering of value at enviromental management and product exchange indicators. | Eco Industrial Park, Kawasan Industri. | Hermawan Prasetya | |
| 240 | Pengukuran Benda Yang Bergerak Pada Pengolahan Citra | Intensitas warna yang dimiliki oleh sebuah benda yang bergerak dalam bidang datar dapat dimanfaatkan untuk mengetahui kondisi pergerakan benda tersebut. Dengan memanfaatkan teknologi pengelohan citra, warna yang dimiliki oleh benda tersebut dapat dipisahkan dari warna latar belakang di mana benda tersebut bergerak, sehingga arah gerak, kecepatan dan posisi kedudukan benda tersebut dapat dihitung dengan perhitungan matematik biasa. Teknologi pengolahan citra ini dapat diterapkan misalnya untuk menghitung kecepatan kendaraan yang melaju dijalan bebas hambatan, mengukur kecepatan benda yang bergerak di langit atau di atas sungai yang berkelok-kelok. | Labeling, Color Extrating, Grayscale, Hystogram, Image Processing | Heru Dwi Wahjono, B.Eng. |
