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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 朱元南(Yuan-Nan Chu) | |
dc.contributor.author | Yu-Heng Wu | en |
dc.contributor.author | 吳有恒 | zh_TW |
dc.date.accessioned | 2021-06-08T06:25:14Z | - |
dc.date.copyright | 2006-07-31 | |
dc.date.issued | 2006 | |
dc.date.submitted | 2006-07-29 | |
dc.identifier.citation | Brisset, P., D. Versichele, E. Bossuyt, L. De Ruyck and P. Sorgeloos. 1982. High density flow-through culturing of brine shrimp Artemia on inert feeds-preliminary results with a modified culture system. Aquacult. Eng. 1: 115-119.
Bossuyt, E. and P. Sorgeloos. 1980. Technological aspects of the batch culturing of Artemia in high densities. In “The Brine Shrimp Artemia. Vol. 3. Ecology, Culturing, Use in Aquaculture”, eds. G. Persoone, P. Sorgeloos, O. Roels and E. Jaspers, 133-152. Wetteren: Universal Press. Chen, S., M. B. Timmons, D. J. Aneshansley and J. J. Jr. Bisogni. 1992. Bubbles size distribution in a bubble column applied to aquaculture systems. Aquacult. Eng. 11: 267-280. Chen, S., D. Stechey and R. F. Malone. 1994. Suspended solids control in recirculating aquaculture systems. In “Aquaculture water reuse systems: engineering design and management”, eds. M. B. Timmons and T. M. Losordo, 61-100. Amsterdam: Elsevier. Dhont, J. and P. Lavens. 1996. Tank production and use of ongrown Artemia. In “ Manual on the production and use of live food for aquaculture”, eds. P. Lavens and P. Sorgeloos, 164-194. Ghent: Artemia Reference Center, State University of Ghent, Belgium. Léger, P. and P. Sorgeloos. 1982. Automation in stock-culture maintenance and juvenile separation of the mysid Mysidopsis bahia (Molenock). Aquacult. Eng. 1, 45-53. Léger, P., P. Vanhaecke and P. Sorgeloos. 1983. International study on Artemia XXIV. Cold storage of live Artemia nauplii from various geographical sources: Potentials and limits in aquaculture. Aquacult. Eng. 2: 69-78. Lim, L. C., A. Soh, P. Dhert and P. Sorgeloos. 2001. Production and application of on-grown Artemia in freshwater ornamental fish farm. Aquacult. Economics and Management 5, 211-228. Merchie, G. 1996. Use of nauplii and meta-nauplii. In “Manual on the Production and Use of Live Food for Aquaculture”, eds. P. Lavens and P. Sorgeloos, 137-163. Rome: Food and Agriculture Organization of the United Nations. Mekuchi, T., H. Murakami and H. Mizukure. 1988. Trial production of rotifer harvesting apparatus. In “Annual rep. of Hiroshima Prefect. Fish Farming Assoc. in 1987”, 7: 113-116. (In Japanese). Morizane, T. 1991. A review of automation and mechanization used in the production of rotifers in Japan. In “Rotifer and Microalgae Culture Systems”, eds. W. Fulks and K. L. Main, 79-88. Honolulu: Oceanic Institute. Ritar, A. J., G. A. Dunstan, M. M. Nelson, M. R. Brown, P. D., Nichols, C. W. Thomas, E. G. Smith, B. J. Crear and S. Kolkovski. 2004. Nutritional and bacterial profiles of juvenile Artemia fed different enrichments and during starvation. Aquaculture 239: 351-373. Sorgeloos, P., P. Larvens, P. Léger, W. Tackaert and D. Versichele. 1986. Manual for the culture and use of brine shrimp Artemia in aquaculture. 319p. Ghent: Artemia Reference Center, State University of Ghent, Belgium. Sorgeloos, P. and P. Léger. 1992. Improved larviculture outputs of marine fish, shrimp and prawn. J. World Aquacult. Soc. 201: 251-264. Sorgeloos, P., P. Dhert and P. Candreva. 2001. Use of the brine shrimp, Artemia spp., in marine fish larviculture. Aquaculture 200: 147-159. Suantika, G., P. Dhert, M. Nurhudah and P. Sorgeloos. 2000, High-density production of the rotifer Brachionus plicatilis in a recirculation system: consideration of water quality, zootechnical and nutritional aspects. Aquacult. Eng. 2000: 201-214. Van Stappen, G., 1996. Use of cysts. In “Manual on the Production and Use of Live Food for Aquaculture”, eds. P. Lavens and P. Sorgeloos, 107-136. Rome: Food and Agriculture Organization of the United Nations. Tobias, W. J., P. Sorgeloos, O. A. Roels and B. A. Sharfstein, 1980. International study on Artemia XIII. A comparison of production data of 17 geographical strains of Artemia in the St. Croix Artificial Upwelling-Mariculture System. In “The Brine Shrimp Artemia. Vol. 3. Ecology, Culturing, Use in Aquaculture”, eds. G. Persoone, P. Sorgeloos, O. Roels and E. Jaspers. 383-392. Belgium: Universa Press. Wu, Y. H., Y. N. Chu and H. M. Su. 2006. An automatic device for vacuum harvesting and concentration of rotifer, Brachionus rotundiformis, employing the self-cleaning filtration technique. J. Agric. Assoc. China 7: (In press). Yoshimura, K., K. Tanaka and T. Yoshimatsu. 2003. A novel culture system for the ultra-high-density production of the rotifer, Brachionus rotundiformis-a preliminary report. Aquaculture 227: 165-172. Brisset, P., D. Versichele, E. Bossuyt, L. de Ruyck and P. Sorgeloos. 1982. High density flow-through culturing of brine shrimp Artemia on inert feeds-preliminary results with a modified culture system. Aquacult. Eng. 1: 115-119. Bossuyt, E. and P. Sorgeloos. 1980. Technological aspects of the batch culturing of Artemia in high densities. In “The Brine Shrimp Artemia. Vol. 3. Ecology, Culturing, Use in Aquaculture”, eds. G. Persoone, P. Sorgeloos, O. Roels, and E. Jaspers, 133-152. Wetteren: Universal Press. Chen, S., M. B. Timmons, D. J. Aneshansley and J. J. Bisogni. Jr. 1992. Bubbles size distribution in a bubble column applied to aquaculture systems. Aquacult. Eng. 11: 267-280. Chen, S., D. Stechey and R. F. Malone. 1994. Suspended solids control in recirculating aquaculture systems. In “Aquaculture water reuse systems: engineering design and management”, eds. M. B. Timmons and T. M. Losordo, 61-100. Amsterdam: Elsevier. Dhont, J. and P. Lavens. 1996. Tank production and use of ongrown Artemia. In “Manual on the production and use of live food for aquaculture”, eds. P. Lavens and P. Sorgeloos, 164-194. Ghent: Artemia Reference Center, State University of Ghent, Belgium. Hiramoto, Y., S. Kanamaki and M. Tabata. 1984. On the experiment for automatic harvesting apparatus of rotifers cultured-I. On the death in transferring process by pump. Saibai Gyogyo Gijyutsu Kaihatsu Kenkyu. 13(2): 7-12. (In Japanese). Hiramoto, Y., S. Kanamaki and M. Tabata. 1985. On the experiment for automatic harvesting apparatus of rotifers cultured-II. On the death in harvesting apparatus process of rotifers condensed. Saibai Gyogyo Gijyutsu Kaihatsu Kenkyu. 14(1): 1-6. (In Japanese). Hiramoto, Y., S. Kanamaki and M. Tabata. 1986. On the experiment for automatic harvesting apparatus of rotifers cultured-III. On the concentration, death and harvest using a model and a large apparatus. Saibai Gyogyo Gijyutsu Kaihatsu Kenkyu. 15(1): 1-7. (In Japanese). Japan Fish Farming Assoc. 1984. New instruments and apparatuses. In “Annual Rep. of Japan Fish Farming Assoc. in 1983”, 274-277. (In Japanese). Léger, P. and P. Sorgeloos. 1982. Automation in stock-culture maintenance and juvenile separation of the mysid Mysidopsis bahia (Molenock). Aquacult. Eng. 1: 45-53. Léger, P., P. Vanhaecke and P. Sorgeloos. 1983. International study on Artemia XXIV. Cold storage of live Artemia nauplii from various geographical sources: Potentials and limits in aquaculture. Aquacult. Eng. 2: 69-78. Lim, L.C., A. Soh, P. Dhert and P. Sorgeloos. 2001. Production and application of on-grown Artemia in freshwater ornamental fish farm. Aquacult. Economics and Management 5: 211-228. Merchie, G., 1996. Use of nauplii and meta-nauplii. In “Manual on the Production and Use of Live Food for Aquaculture”, eds. P. Lavens, P. Sorgeloos. 137-163. Rome: Food and Agriculture Organization of the United Nations. Mekuchi, T., H. Murakami and H. Mizukure. 1988. Trial production of rotifer harvesting apparatus. In “Annual Rep. of Hiroshima Prefect. Fish Farming Assoc. in 1987”, 7: 113-116. (In Japanese). Morizane, T., 1991. A review of automation and mechanization used in the production of rotifers in Japan. In “Rotifer and Microalgae Culture Systems”, eds. W. Fulks and K. L. Main, 79-88. Honolulu: Oceanic Institute. Parsons, T. R., Y. Maita, and C. M. Lalli. 1984. A Manual of Chemical and Biological Methods for Seawater Analysis. 173. Oxford: Pergamon Press. Ritar, A. J., G. A. Dunstan, M. M. Nelson, M. R. Brown, P. D. Nichols, C. W. Thomas, E. G. Smith, B. J. Crear and S. Kolkovski. 2004. Nutritional and bacterial profiles of juvenile Artemia fed different enrichments and during starvation. Aquaculture 239: 351-373. Seikai, T. 1979. Trial production of rotifer collecting apparatus. Suisan Zosyoku. 27 (2): 111-112. (In Japanese). Sorgeloos, P., Dhert, P., Candreva, P., 2001. Use of the brine shrimp, Artemia spp., in marine fish larviculture. Aquaculture 200: 147-159. Sorgeloos, P., P. Larvens, P. Léger, W. Tackaert and D. Versichele. 1986. Manual for the culture and use of brine shrimp Artemia in aquaculture. 319p. Ghent: Artemia Reference Center, State University of Ghent, Belgium. Sorgeloos, P. and P. Léger. 1992. Improved larviculture outputs of marine fish, shrimp and prawn. J. World Aquacult. Soc. 201: 251-264. Suantika, G., P. Dhert, M. Nurhudah and P. Sorgeloos. 2000, High-density production of the rotifer Brachionus plicatilis in a recirculation system: consideration of water quality, zootechnical and nutritional aspects. Aquacult. Eng. 21: 201-214. Su, H. M., S. C. Hsiao and M. S. Su. 1992. Evaluation of rotifer harvesting methods. In “Abstracts of the Taiwan Fisheries Society Annual Conference”, Keelung: Taiwan Fisheries Society. (In Chinese). Tobias, W. J., P. Sorgeloos, O. A., Roels and B. A. Sharfstein. 1980. International study on Artemia XIII. A comparison of production data of 17 geographical strains of Artemia in the St. Croix Artificial Upwelling-Mariculture System. In “The Brine Shrimp Artemia. Vol. 3. Ecology, Culturing, Use in Aquaculture”, eds. G. Persoone, P. Sorgeloos, O. Roels and E. Jaspers. 383-392. Wetteren: Universa Press. Van Stappen, G., 1996. Use of cysts. In “Manual on the Production and Use of Live Food for Aquaculture”, eds . P. Lavens and P. Sorgeloos. Rome: Food and Agriculture Organization of the United Nations. Wu, Y. H., Y. N. Chu, and H. M. Su. 2006. An automatic device for vacuum harvesting and concentration of rotifer, Brachionus rotundiformis, employing the self-cleaning filtration technique. J. Agric. Assoc. China 7: (In press). Yoshimura, K., K. Tanaka and T. Yoshimatsu. 2003. A novel culture system for the ultra-high-density production of the rotifer, Brachionus rotundiformis-a preliminary report. Aquaculture 227: 165-172. | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/25694 | - |
dc.description.abstract | 本研究利用創新的自淨式(self-cleaning)過濾技術研發滾筒過濾機,用以快速且安全地濃縮豐年蝦無節幼蟲與輪蟲,並評估利用高水流交換率過濾高密度輪蟲生產系統的可行性。過濾器的滾筒有1/3沉於水中,而過濾水則由滾筒內部抽出。滾筒的旋轉會在濾網與周圍的水體間產生相對運動而使得濾網面自淨,豐年蝦無節幼蟲與輪蟲因此可以在高速下被濃縮到高密度而不會有太大的損傷。結果顯示滾筒過濾機可在9分鐘內將200公升的豐年蝦無節幼蟲由200/ml濃縮到13,500/ml,存活率超過99%。滾筒的比過濾率(specific filtration rate) 為楔形網的2倍以上而大約為浮游生物網的8倍。結合真空收穫裝置與滾筒過濾機而成的自動化系統可以在13分鐘內將350公升的輪蟲由密度大約250/ml濃縮到大約15,000/ml。平均存活率為95.4%。與文獻中的其他輪蟲收穫裝置相比,自動化系統的比過濾率10.88 m3/h/m2與收穫率97.3%均是最高。滾筒提供了快速且安全的過濾方式,可以用在收穫密度為2,000 rotifers/ml 而體積為1,000公升的養殖系統中,利用滾筒過濾機抽取天然藻水餵飼輪蟲每天可生產1.2億個輪蟲。自淨式的分離技術養殖上可以有很大的應用包括將水與豐年蝦、輪蟲、魚蝦的幼苗等加以分離。 | zh_TW |
dc.description.abstract | A rotating drum filter, employing a novel self-cleaning filtration technique, has been developed to concentrate/filter brine shrimp nauplii and rotifers, and was performed to evaluate the feasibility for the high-density rotifer production system employing high water exchange rate. The rotating drum is partially submerged into the culture and the filtered water is pumped out from inside the drum. The rotation of the drum produces a relative motion between the filtering screen and the surrounding water making the filtering screen self-cleaning. Nauplii and rotifers thus could be concentrated at high speed to a high density with little damage. The rotating drum could process 200 liters of nauplii culture from an initial concentration of 200 nauplii/ml to a final concentration of 13,500 nauplii/ml in less than 9 minutes, with a survival rate of more than 99%. The specific filtration rate was more than twice that of the welded wedge screen and about eight times that of the plankton bag. Combined with the vacuum harvesting device, it could automatically concentrate 350-liter of the rotifer culture with a density of about 250 rotifers/ml to about 15,000 rotifers/ml in less than 13 minutes. The average survival rate was 95.4%. The specific filtration rate of 10.88 m3/h/m2 and the average rotifer collection rate of 97.3% were both highest compared with other devices reported in the literature. The rotating drum offers a fast and safe filtration operation. It may be used for a 1,000-liter of the rotifer culture system, with a harvested concentration of 2,000 rotifers/ml, to produce 1.2×109 rotifers/day by using the filter to pump the natural microalgae. The self-cleaning separation technology could have wide applications in aquaculture involving the separation of water from live organisms such as the live food Artemia sp. and rotifers as well as fish or crustacean larvae. | en |
dc.description.provenance | Made available in DSpace on 2021-06-08T06:25:14Z (GMT). No. of bitstreams: 1 ntu-95-D84631003-1.pdf: 1134582 bytes, checksum: ddd1f8b890bd2bb8eca0414e42b7375d (MD5) Previous issue date: 2006 | en |
dc.description.tableofcontents | Table of Contents
誌謝………… I 摘要……….. II Abstract……. III Table of Contents IV List of Figures VII List of Tables …………………………………………………………………………...IX Introduction…. 1 Chapter 1- Development of a self-cleaning rotating drum brine shrimp nauplii concentrator 3 1. Introduction 3 2. Material and methods 5 2.1. Concentrator construction 5 2.2. Operation of the concentrator 6 2.3. Experiments and statistical analyses 7 2.3.1. Preparation of the brine shrimp nauplii 7 2.3.2. Effects of nauplii concentration, drum rotation speed, and aeration on the filtration and survival rates 7 2.3.3. Concentration performance tests 8 2.3.4. Statistical analyses 9 3. Results and discussion 9 3.1. The effects of nauplii concentration, drum rotation speed and aeration on the filtration rate 9 3.2. The effects of nauplii concentration and drum rotation speed on survival rate 12 3.3. Concentration performance 12 3.4. Overall evaluation 14 4. Conclusions 18 References 20 Chapter 2-An automatic device for vacuum harvesting and concentration of rotifer, Brachionus rotundiformis, employing the self-cleaning filtration technique 31 1. Introduction 31 2. Material and Methods 33 2.1. The automatic device 33 2.2. Preparation and sampling of the rotifer 34 2.3. Experimental methods 35 2.3.1. Determining flow rate at different water raising heights 35 2.3.2. Effects of harvester flow rate on rotifer survival rate 35 2.3.3. Effects of rotation speed of the drum 36 2.3.4. Device performance test 36 3. Results and discussion 37 3.1. Determination of the harvester flow rate and drum rotation speed of the concentrator 37 3.2. Performance of the automatic device 40 4. Discussion 40 5. Conclusions 42 References 43 Chapter 3-The feasibility study for the culturing of high-density rotifer employing a high flow rate filtration technique 55 1. Introduction 55 2. Material and methods 56 2.1. Pre-treatment of the rotifers 57 2.2. The rotating drum filter 57 2.3. Filtration experiments 57 2.3.1. Determining the optimum rotation speed of the drum 58 2.3.2. Filtration test using the rotating drum filter 59 2.3.3 Filtration test using a plankton bag 59 2.4. Simulation of the shear rate distribution 60 2.5. Statistical analysis 60 3. Results 61 4. Discussion 64 References 70 Conclusions… 80 | |
dc.language.iso | en | |
dc.title | 滾筒過濾技術在養殖上的應用 | zh_TW |
dc.title | Applications of the Rotating Drum Filtration Technique in Aquaculture | en |
dc.type | Thesis | |
dc.date.schoolyear | 94-2 | |
dc.description.degree | 博士 | |
dc.contributor.oralexamcommittee | 陳瑤湖,方煒,周楚洋,侯文祥 | |
dc.subject.keyword | 豐年蝦,輪蟲,濃縮機,過濾技術,養殖, | zh_TW |
dc.subject.keyword | brine shrimp,rotifer,concentrator,filtration technique,aquaculture., | en |
dc.relation.page | 80 | |
dc.rights.note | 未授權 | |
dc.date.accepted | 2006-07-29 | |
dc.contributor.author-college | 生物資源暨農學院 | zh_TW |
dc.contributor.author-dept | 生物產業機電工程學研究所 | zh_TW |
顯示於系所單位: | 生物機電工程學系 |
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