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1.
Jayanthi Marappan Balasubramaniam Ambattaiyanpatti Anathaikamatchi Suryaprakash Sakkarai Ravisankar Thiagarajan Duraisamy Muthusamy Manimaran Kuppusamy Muralidhar Moturi Aritra Bera Puthiavan Ramasamy Sivagnanam Shanmugam 《Aquaculture Research》2020,51(5):2112-2124
The selection of aerators and correct numbers can play an essential role in reducing the cost of production in aquaculture. The new generation aerators, namely spiral leaf, air‐jet, submersible and impeller, used in aquaculture, were assessed for its aeration efficiency and energy cost compared with the commonly used paddle wheel aerator. Of the aerators tested, the impeller had the highest aeration efficiency of 2.098 kg O2/kW hr, followed by paddle wheel with 1.436 kg O2/kW hr at 20‰ salinity. The spiral and air‐jet aerators had maximum aeration efficiency of 1.326 and 1.419 kg O2/kW hr, respectively, at 35‰ salinity. The submersible aerator was not efficient as its maximum efficiency was 0.380 kg O2/kW hr. The water flow by paddle wheel was 3 ft/sec and also provides better coverage than other types of aerators. The efficiency of aerators was high in optimum salinities (20‰ and 35‰) than the low or high saline condition. The average energy cost of shrimp pond aeration per hectare was lowest for impeller, followed by paddle wheel aerator. The study provided economic comparisons of vannamei culture using different aeration systems by keeping a uniform set of economic assumptions. Shrimp farms with impellors can give 14%–25% high returns across salinities, whereas spiral leaf can provide 5% high returns at 35‰ salinity. The combination of the type of aerators and the calculated use based on the salinity of the culture systems can result in energy‐saving and also a reduction in the production cost. 相似文献
2.
Aerators are essential for maintaining the dissolved oxygen level in shrimp culture operations. Many types of aerators are promoted as suitable for shrimp culture, but their comparative efficiencies and water circulation patterns are least understood. The aerators viz, modified paddlewheel, Scorpion jet, Venture jet, Wavesurge were evaluated to compare the standard aeration efficiency at different saline conditions with the commonly used paddle wheel. The modified paddlewheel had the highest mean aeration efficiency of 2.018 kg O2/ kWh at 35‰, followed by the paddlewheel with 1.434 kg O2/ kWh at 20‰ water salinity. Compared to this, the Scorpion jet and the Wavesurge have shown the highest aeration efficiency of 0.667 and 0.412 kg O2/ kWh at 20 and 35‰ water salinities, respectively, whereas the Venture jet has given only. The aerator's performance was better at medium water salinities (20 and 35‰) than low (5‰) or high saline (50‰) conditions. In addition to aeration, the paddlewheel aerator has given the maximum water circulation speed 3 ft/sec and coverage distance of 24 m. The cost economics were derived by keeping all other expenses constant except aeration associated costs. The internal rate of returns in shrimp culture with a modified paddle wheel was 127 % compared to the commonly used paddle wheel (120 %). However, the scorpion and wavesurge aerators have shown returns of 47 % and 27 % respectively across the salinities. The selection and sizing of aerators based on the biomass and efficiency of the aeration systems can make considerable headway in decreasing the cost of production and energy use. 相似文献
3.
为解决河南中牟县万滩镇养殖池塘机械增氧技术单一的问题,通过试验研究微孔式、水车式、涌浪式等几种增氧机的性能及使用方式,以达到提升增氧效果和提高养殖效益的目的。结果表明,该地区池塘溶氧含量高而利用率低,养殖户传统增氧方法不当。适宜增氧方式为:涌浪式增氧机适合在晴天下午使用3~6 h,可有效提升周边20 m范围内底层水体的溶氧水平;投食前后半小时开启和关闭微孔式、水车式增氧机,可提升投食期间投饵区溶氧水平1~2 mg/L,保证鱼群的进食效果;夜间搭配使用微孔式和低功率叶轮式增氧机增氧,可使微孔区域底层水体溶氧比不增氧状态高出1 mg/L以上。 相似文献
4.
增氧机池塘增氧效果试验的研究 总被引:2,自引:0,他引:2
研究不同型式的增氧机性能,可使生产者根据不同养殖对象与模式针对溶氧的需求,选择配置合适的增氧方式。通过对使用最为广泛的叶轮式、水车式、射流式和曝气式增氧机产品性能的池塘实效试验,分析比较各类增氧机性能、工作特性和适用范围。结果表明,养殖水体溶解氧主要来自浮游植物的光合作用;叶轮式、水车式和射流式增氧机应用于服务水域,其增氧能力远远不能满足该水域养殖鱼类的氧需求,但可满足养殖鱼类的应急氧需求;曝气式增氧机因没有应急增氧作用和水体搅拌能力而不适合四大家鱼等常规鱼种的养殖需要。 相似文献
5.
微孔曝气式增氧机的性能及应用效果 总被引:2,自引:0,他引:2
为研究微孔曝气增氧机的增氧性能和池塘应用效果,按照标准规定的方法进行了增氧性能的试验和不同水深对增氧性能影响的试验,并在池塘中进行应用效果的试验。结果显示:微孔曝气式增氧机具有比叶轮式增氧机等增氧机更强的增氧能力,但不同配置的机型,增氧能力随配套功率和曝气管长度的增加而增强,动力效率则呈明显下降趋势;增加曝气管布置深度可以提高增氧性能,安装深度从2 m增加到4 m,增氧能力增加285%,动力效率增加207%,与其它养殖池塘机械增氧设备相比,池塘水体越深,微孔曝气式增气机的增氧优势越明显。目前,池塘采用微孔曝气式增氧机的配置方式不具优势,需要改进提升。 相似文献
6.
Engineering considerations for paddlewheel aeration in vegetated shallow water ponds for the production of procambarid crawfish is necessary to ensure cost-effective application. Three experimental ponds (approximately 2 ha each) were planted with rice in August as forage for the resident pond population of red swamp crawfish, Procambarus clarkii, and flooded in October. Two 2.2 kW (3 hp), single-phase electric motor (110 Vac) paddlewheel aerators were placed in each pond. The aerator rotors were 160-cm long and 95-cm in diameter. The aerator rotor had 36 paddles with half the paddles 27.3-cm long and half 34.9-cm long. Rotor speed was set at 83 rpm and operated at three paddle submergence settings: 7.6, 12.7, and 17.8 cm below the water surface. Over a 20-week period between November and April, channel velocity, head difference, and aerator amperage was measured for both one and two aerators in operation in each pond. Results indicated that circulation of oxygenated water from the aerators can be accomplished as efficiently with a single aerator set at a lower paddle depth (7.6-cm) compared to operating two aerators set at a greater paddle depth (12.7 or 17.8-cm). However, based on the apparent efficiency of the aerators and the calculated channel roughness coefficients values obtained from the channel velocities, paddlewheel aerators are an inefficient option for circulating the pond water especially when rice foliage dominants the total vegetative biomass of the pond. 相似文献
7.
Roy Subha M. P Jayraj Machavaram Rajendra Pareek C. M. Mal B. C. 《Aquaculture International》2021,29(3):1181-1217
The growing intensive aquaculture system around the world maintains a high stocking density, wherein it is essential to increase and sustain the optimum dissolved oxygen concentration (DO) through the provision of artificial aeration systems. The selection of an aerator is a crucial aspect of aquaculture operations. The selected aerator must be economically efficient and should be able to fulfill the requirement of oxygen supply in the pond water. The present study provides an extensive literature review on the importance of artificial aeration in aquaculture, the standard method of test for performance evaluation of an aerator, various aeration systems and their mechanisms, method to determine the numbers of aerator requirement, comparative studies of different type of aerators, and economic consideration in selection of aerators. In addition, a thorough analysis has been done to suggest the type of aerator that is economically viable and efficient for different pond volumes based on the performance data reported in the reviews. Therefore, this study may help the end-users (fish farmers) to select the best aerator based on their requirements.
相似文献8.
A water streamer was designed for the purpose of enhancing cost-efficient circulation between the water surface and bottom of shrimp aquaculture ponds. We took direct measurements of the water current field induced by the designed aerator in a large rectangular reservoir of dimensions (L)50 × (W)19 × (D)1.3 m3 and compared the results with those of a standard Taiwanese paddle-wheel aerator. Vertical circulation between the surface and the bottom induced by the paddle wheel aerator was less than that by the designed aerator. Furthermore, the paddle-wheel aerator consumed more electric power than the designed aerator. The structures of water current induced by the two aerators are elucidated, and the advantages and disadvantages of the aerators are discussed.Auxiliary employment of the designed aerators may contribute to delivery of high DO water throughout the pond, which is more efficient than a paddle wheel aerator. 相似文献
9.
《Journal Of Applied Aquaculture》2013,25(2):63-78
Oxygen transfer rates for mechanical aerators are usually determined by standard aeration tests conducted in concrete tanks. Results from standard tests are then extrapolated to field application of the aerators in aquaculture ponds, but these extrapolations have not been verified. In this study, oxygen transfer rates were estimated for propeller-aspirator-pump aerators deployed in brackish water aquaculture ponds under normal pond conditions. Estimation was accomplished by fitting the Whole Pond Respiration Diffusion (WPRD) model to nighttime observations of dissolved oxygen concentration for ponds in which artificial aeration had been initiated during the night. Application of this new technique revealed that oxygen transfer rate determined from a standard aeration test was similar to that estimated from trials in aquaculture ponds. Preliminary results suggest that oxygen transfer rates were higher when the aerator was placed in the deep end of the ponds than when the aerator was situated in the shallow end. Aeration efficiencies ranged from 1.45 to 1.8 kg O 2 per kW-hour. 相似文献
10.
Effects of artificial substrate and night‐time aeration on the water quality in Macrobrachium amazonicum (Heller 1862) pond culture 
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下载免费PDF全文 Matheus Nicolino Peixoto Henares Bruno de Lima Preto Fabricio Ribeiro Tito Rosa Wagner Cotroni Valenti Antonio Fernando Monteiro Camargo 《Aquaculture Research》2015,46(3):618-625
The effects of artificial substrate and night‐time aeration on the culture of Macrobrachium amazonicum were evaluated in 12 ponds stocked with 45 prawns m?2. A completely randomized design in 2 × 2 factorial scheme with three replicates was used. The combination of factors resulted in four treatments: with substrate and aeration (SA), with substrate and without aeration (SWA), without substrate and with aeration (WSA) and without substrate and aeration (WSWA). The presence of substrate in SA and SWA treatments reduced suspended particles (seston) by ~17.3% and P‐orthophosphate by ~50%. The use of aerator (WSA and SA treatments) significantly (P < 0.05) increased the concentration of dissolved oxygen, suspended particles and nutrients in the pond water. These results indicate that the effect of substrate on turbidity and total suspended solids (TSS) values is opposite to the effect of the aerator. The aerators in semi‐intensive grow‐out M. amazonicum farming lower water quality because they increased the amount of detritus and nutrients in the pond water. On the other hand, the use of artificial substrate reduces turbidity values, chlorophyll a, TSS and P‐orthophosphate concentrations. Therefore, the combination of substrate addition and night‐time aeration is not interesting because they have opposite effects. 相似文献
11.
水产养殖过程中,池塘生态系统可分为自成熟期和人工维持期。在养殖容量提高的情况下,养殖生物呼吸需氧量在不断增加,缺氧条件下有机物分解成有害物质,影响养殖生产。维持池塘生态系统稳定的主要工程机制为:通过上下水层交换、平衡营养元素等方法,强化光合作用,提高营养物质转化规模,提升初级生产力;形成生态增氧为主、机械增氧为辅的高效增氧机制。以中国养殖池塘生态系统为研究对象,分析探讨养殖池塘生态机制、水体溶氧理论、增氧机作用机理、不同类型增氧机的机械性能等,提出了大宗淡水鱼混养池塘及几种典型单养池塘增氧机配置方式,从而为池塘养殖系统增氧机的配置提供技术参考。 相似文献
12.
为进一步提高移动式太阳能增氧机的使用效率、降低开发成本,采用Solidworks软件对原型机进行了改进设计及性能测试。通过对运动控制系统的简化和采用非接触式换向的水面行走机构,使得来回行走更加灵敏。性能测试结果显示,改进后的移动式太阳能增氧机,当光照度为17 000 Lx,转速可达到34 r/min。光照度越强,叶轮转动越快,其增氧效率也越高。在输入电压24 V时,选用8.2 kΩ和2 kΩ电阻进行分压,可以使控制电压达到4.7 V。对光敏传感器进行的优化结果表明,选用4.2 kΩ光敏阻值,在低光照强度下能够达到最低20 r/min的转速要求,遥控距离可达到45 m,平均运行时间可达6 h/d左右。电气控制系统采用单元模块,以及更加便捷的水面行走机构,不仅实现了原型机的全部控制要求,还降低了材料成本费用。结果表明,改进后的增氧机性能稳定可靠,适于在池塘养殖中推广。 相似文献
13.
研发一种大水体太阳能自动增氧装置,为大水体的缺氧、水体污染提供一种解决方法。太阳能自动增氧装置由太阳能光伏发电系统、检测与智能增氧系统、自动化驱动系统组成。光伏发电系统充分利用太阳能资源,解决了电能消耗问题;检测与智能增氧系统实现了增氧过程中氧溶解浓度检测和智能感应运行;自动化驱动系统通过智能感应信号和电子差速控制系统实现增氧机原地转向、转弯和直行3种运动模式的移动,增加了增氧面积。使用太阳能自动增氧装置增氧试验表明,80 min内1 m水深处溶氧量增加0.79 mg/L,2 m水深处溶氧量增加0.78 mg/L,3m水深处溶氧量增加0.77 mg/L,4 m水深处溶氧量增加0.78 mg/L;改善水质试验表明能有有效提高水体溶氧,降低氮磷含量;养殖试验表明,增加鲤产量35.3%、鲢鳙产量31.2%。 相似文献
14.
Aeration cost is the third largest cost in intensive aquaculture system after post larvae and feed cost representing about 15% of total production cost. Therefore, selection of aerators plays a major role in maximizing the profit in such system. Over the years, various types of aerators have been developed specifically to enhance the production of aquatic species. The performances of these aerators are generally compared in terms of standard aeration efficiency. However, suitability of a particular aerator at different pond sizes and water quality conditions can best be determined in terms of aeration cost per unit time of operation. In the present study, economic performance of five different aeration systems – circular stepped cascade (CSC), pooled circular stepped cascade (PCSC), 1-hp paddle wheel, 2-hp paddle wheel and propeller aspirator pump were evaluated and compared at different pond sizes, initial DO concentrations of pond and operating hours of aerators; assuming a typical Indian major carp (IMC) culture with commonly practiced stocking density and feeding. Both CSC and PCSC aerators were found to be suitable for pond size less than 1000 m3. However, for pond sizes more than 5000 m3, 1-hp paddle wheel and 2-hp paddle wheel aerators were found to be efficient. 相似文献
15.
Sirirat Chatvijitkul Claude E. Boyd D. Allen Davis Aaron A. McNevin 《Journal of the World Aquaculture Society》2017,48(1):7-19
Global averages were obtained for amounts of energy, land, water, wildfish, nitrogen, and phosphorus embodied in aquaculture feed ingredients. These data allowed amounts of these embodied resources to be calculated for typical feed formulations for channel catfish, Ictalurus punctatus; hybrid catfish, I. punctatus♀ × I. furcatus♂; Vietnamese catfish, Pangasius spp.; Atlantic salmon, Salmo salar; rainbow trout, Oncorhynchus mykiss; tilapia, Oreochromis spp.; whiteleg shrimp, Litopenaeus vannamei; and black tiger shrimp, Penaeus monodon. Embodied resource use per m.t. of feed varied among species: energy, 4.90–12.48 GJ/m.t.; land, 0.082–0.312 ha/m.t.; water, 502–1227 m3/m.t.; wildfish, 0–2880 kg/m.t.; nitrogen, 3.08–8.63 kg/m.t.; phosphorus, 1.16–5.62 kg/m.t. These calculations did not account for variations in site‐specific factors related to embodied resources and feed composition and use. But they suggest that reducing feed conversion ratio (FCR) by 0.1 unit for the seven species (species groups) could potentially reduce feed use by around 1.1 million tonne (Mt) while conserving 9.8 million GJ of energy, 270,000 ha of agricultural land, 1.4 billion m3 of freshwater, and 1.24 Mt of wildfish. Reduction of the FCR is a powerful means of lessening farm‐level production costs and negative impacts of feed production and use. 相似文献
16.
微孔曝气增氧机的增氧能力试验 总被引:3,自引:2,他引:1
为探究微孔曝气增氧机对氧气的传递效果,从研究增氧能力出发,依据SC/T6009-1999增氧机增氧能力试验方法的标准检测程序,以直径为10m的标准室内水池作为试验平台,试验水温为20℃、气压为101.325kPa、初始溶氧浓度为0mg/L;试验用水为清水,将微孔曝气增氧机与射流式增氧机进行对比试验研究。研究结果表明,微孔曝气增氧机能有效增加水体底部溶解氧,与1.5kW射流式增氧机相比,射流式增氧机的增氧能力平均值为2.4kg/h,微孔曝气增氧机布管长度为20m时,增氧能力平均值为0.25kg/h,布管长度为42m时,增氧能力平均值为0.40kg/h,布管长度为98m时,增氧能力平均值为1.12kg/h,布管长度为200m时,增氧能力平均值为1.55kg/h,所以在目前试验布管密度条件下,增氧能力可以超过射流式增氧机。在进气口压力相同的情况下,微孔曝气增氧机增氧速度随着布管长度增加而增加。 相似文献
17.
Effects of mechanical aeration on evaporation rate and water temperature in aquaculture ponds 下载免费PDF全文
下载免费PDF全文 Water temperature and water loss by evaporation were monitored in control ponds and in ponds with different rates of aeration (9.2, 18.4, 27.6 and 36.9 kW/ha). The mean decrease in water temperature at 70‐cm depth was greater than that at the surface in aerated ponds than in control ponds. The greater the aeration rate, the cooler was water, both at the surface and at 70 cm. Evaporation rates were found to increase with greater aeration rate. Water loss increased by 32%–92% over 24‐hr periods in ponds with one to four 0.37‐kW Air‐O‐Lator aerators, respectively. The nutrient‐enriched control pond was more turbid, had cooler surface and deep water temperature, and had greater evaporation loss than the control pond without nutrient addition and less turbid water. But, aeration did not increase turbidity. Aeration can increase water loss from ponds and result in lower water temperature. Although aeration should not be used excessively in order to conserve water and reduce production cost, it is essential for many types of feed‐based aquaculture. 相似文献
18.
Claude E. Boyd Eugene L. Torrans Craig S. Tucker 《Journal of the World Aquaculture Society》2018,49(1):7-70
Feed‐based production of ictalurid catfish in ponds is the largest aquaculture sector in the USA. Feed has an oxygen demand, and increases carbon dioxide, ammonia nitrogen, and phosphate inputs to ponds. Major sources of oxygen in ponds are phytoplankton photosynthesis and mechanical aeration; the major sink for oxygen is respiration by fish and by microorganisms in the water column and sediment. Dissolved oxygen concentrations decline when respiration exceeds photosynthesis, and the most crucial time for low dissolved oxygen concentration is at night. Mechanical aeration is applied to avoid nighttime dissolved oxygen concentrations from falling below the critical level for catfish of 3 mg/L. Electrically powered paddlewheel aerators are used by most catfish producers. The oxygen‐transfer efficiency of these aerators is known, but calculations of aeration requirement from stocking and feeding rates are not reliable because of variation in phytoplankton abundance and in weather conditions. Dissolved oxygen concentrations must be monitored, and when measurements suggest that nighttime dissolved oxygen concentration will be unacceptably low, tractor‐powered emergency aerators must be operated to supplement dedicated aeration. Dissolved oxygen concentration also is important in hatcheries, and small aeration systems have been developed for hatchery application. 相似文献
19.
About ScienceDirect 《Aquaculture (Amsterdam, Netherlands)》1984,40(4):377-380
Oxygen-transfer rates (tap water, 0 mg/l dissolved oxygen, 20°C) for four tractorpowered emergency aerators tested in a 820-m3 pond were: blower-fan aerator, 12.2 kg O2/h; Crisafulli® pump and sprayer, 12.3 kg O2/h; Airmaster® aerator (centrifugal pump and sprayer), 21.3 kg O2/h; paddlewheel aerator, 26.3 kg O2/h. Times required for aerators to homogeneously mix salt in a 6000-m3 pond were: blower-fan aerator, 96 min; Crisafulli pump and sprayer, 94 min; paddlewheel aerator, 53 min; and Airmaster aerator, 38 min. The Airmaster aerator and the paddlewheel aerator did not differ in their abilities to transfer oxygen and circulate pond water (P > 0.05); they were both superior to the blower-fan aerator and the Crisafulli pump and sprayer (P < 0.01). 相似文献
20.
Resource Use Assessment of Shrimp,Litopenaeus vannamei and Penaeus monodon,Production in Thailand and Vietnam 下载免费PDF全文
下载免费PDF全文 Claude E. Boyd Aaron A. McNevin Phoebe Racine Huynh Quoc Tinh Hang Ngo Minh Rawee Viriyatum Duangchai Paungkaew Carole Engle 《Journal of the World Aquaculture Society》2017,48(2):201-226
Resource use was investigated at 34 Litopenaeus vannamei and five Penaeus monodon farms in Thailand and 30 L. vannamei and 24 P. monodon farms in Vietnam. Farms varied in water surface areas for production, reservoirs, canals, and settling basins; in pond size and depth; and in water management, stocking density, feeding rate, amendment input, aeration rate, crop duration, and crops per year. Production of L. vannamei averaged 17.3 and 10.9 m.t./ha/yr, and feed conversion ratio averaged 1.49 and 1.33 in Thailand and Vietnam, respectively. On average, production of 1 m.t. of L. vannamei required 0.58 ha land, 5,400 m3 water, 60 GJ energy, and 1218 kg wildfish in Thailand and 1.76 ha land, 15,100 m3 water, 33.7 GJ energy, and 1264 kg wildfish in Vietnam. Resource use per metric ton of shrimp declined with greater production intensity. In Thailand, P. monodon was produced at 0.2–0.4 m.t./ha/yr, with no inputs but water and postlarvae. In Vietnam, P. monodon production averaged 3.60 m.t./ha/yr. Production of 1 m.t. of P. monodon required 0.80 ha land, 36,000 m3 water, 47.8 GJ energy, and 1180 kg wildfish, and resource use per ton production declined with increasing production intensity. 相似文献