笼养鸡舍鸡粪固态处理系统的研究

上海出现多种笼养鸡舍液态鸡粪的处理方法，似均存在投资大、运行费用高、操作管理复杂、技术不过关或不配套等缺点。作者设计了“鸡粪固态处理系统”，其思路是在笼养鸡舍内就使粪与饮水严格分流。本文介绍了该系统的工艺流程、设施改造。日常管理等。实践证明该系统具有投资很少、运行费用甚低。操作管理十分简单、不占用土地和效益相当突出的优点，确是一项简易的实用技术。     

固体脂质纳米增强抗菌药物对胞内金黄色葡萄球菌活性的研究进展

金黄色葡萄球菌导致的乳房炎是危害奶牛养殖业最严重的疾病之一。抗菌药在胞内极易排出或失活,导致奶牛金黄色葡萄球菌乳房炎治疗效果差且容易复发。纳米粒子具有在巨噬细胞和上皮细胞等多种细胞中积累的能力,可提高药物在胞内的浓度和胞内停留时间,这使得它们可用于治疗细胞内感染。本文对固体脂质纳米抗金黄色葡萄球菌感染的研究进展进行综述,以指导和推动固体脂质纳米在治疗金黄色葡萄球菌乳腺炎方面的应用。     

香蕉茎叶粉固态发酵条件优化及鹅对其养分利用率的研究

本试验旨在研究应用固态发酵技术改善香蕉茎叶粉养分组成的工艺参数及鹅对其养分的利用率。选择米曲霉和产朊假丝酵母作为发酵菌种,逐步探究5个因素(单菌种发酵、硫酸铵添加量、米曲霉和产朊假丝酵母接种比例、混合菌液接种量)对发酵后香蕉茎叶粉蛋白质含量的影响。利用正交设计筛选最优发酵温度、底物水分和发酵时间的组合。结果显示:米曲霉和产朊假丝酵母单独发酵均能显著或极显著提高发酵后香蕉茎叶粉的粗蛋白质含量(P0.05或P0.01)。添加硫酸铵能显著或极显著提高发酵后香蕉茎叶粉的真蛋白质含量(P0.05或P0.01),其中添加2%硫酸铵组的真蛋白质含量最高。米曲霉∶产朊假丝酵母接种比例为2∶1的处理发酵后香蕉茎叶粉的蛋白质净增加量显著或极显著高于比例为1∶1、1∶3和3∶2的处理(P0.05或P0.01)。正交试验结果显示,以4%的接种量、接种比例为2∶1(米曲霉∶产朊假丝酵母)、2%的硫酸铵添加量,在基质水分为50%,30℃的环境下发酵4 d效果最佳。经过该工艺发酵后的香蕉茎叶粉粗蛋白质含量提高了33.82%,氨基酸分析结果显示,除赖氨酸和精氨酸外其余的15种氨基酸含量均有不同程度的提高。马冈鹅的代谢试验结果显示,发酵后香蕉茎叶粉中的粗蛋白质利用率提高了52.66%,极显著高于发酵前(P0.01);此外,代谢能和能量利用率也都略有提高(P0.05)。由此可见,经过该发酵工艺发酵后的香蕉茎叶粉营养价值不仅得到了改善,也促进了鹅对其养分的消化吸收。     

Methane production from thermophilic co‐digestion of dairy manure and waste milk obtained from therapeutically treated cows

Methane production from co‐digestion of dairy manure and waste milk, milk from cows treated with antibiotics for mastitis, was tested in a 2 × 4 factorial design. Four different waste milk percentages (w/w): 0% (SM), 10% (SMWM10), 20% (SMWM20) and 30% (SMWM30), were tested with two slurry percentages (w/w): 50% (A) and 25% (B) and the rest being manure at 55°C for 12 days in batch digesters. The results analyzed using a Gompertz model showed SMWM10 produced the highest methane production potential (P_m)/g volatile solids added followed by SM in both A and B. This P_m of SMWM10 in A and B was statistically non‐significant (P > 0.05). More than 96% of cefazolin‐resistant bacteria and 100% of multi‐drug‐resistant bacteria reductions were observed in all the treatments. Inclusion of waste milk at 10% in single stage digester enhances the methane production from dairy manure and could offer added benefit of waste milk treatment and disposal.     

Biosecurity and arable use of manure and biowaste — Treatment alternatives

The potential negative environmental impact of manure and biological waste (BW) can be minimised at a profit by recycling plant nutrients in the food chain. Current large-scale livestock production, epizootic diseases and increasing globalisation increase the need for biosecurity, to minimise the risk of disease transmission to the food chain. Arable use of manure and BW can inadvertently spread infectious diseases; opinion differs concerning the risk levels. To obtain general acceptance for arable use, a hygienically safe end-product is needed. This paper provides a detailed discussion of treatment alternatives for co-treatment, i.e., mixture before treatment of manure and BW. Composting, anaerobic digestion and ammonia treatment are the three options given. A decision support tool is also presented and discussed. Suitable treatment methods must combine biosecurity aspects with environmental, economic and nutrient recycling aspects to create a beneficial whole-farm approach.     

Treatment of cow-waste slurry by a microbial fuel cell and the properties of the treated slurry as a liquid manure

Resource recycling and the proper treatment of animal waste to reduce its environmental impact are currently important issues for the livestock industry. A microbial fuel cell (MFC), a new type of bioreactor, is expected to play roles in both waste‐water purification and energy recovery. However, the generation of electricity from cow waste has not yet been examined. In this study, using an MFC, we examined the possibility of generating electricity from dairy‐cow waste slurry, and analyzed the properties of the treated slurry as liquid manure for resource recycling. The MFC treatment of the slurry generated electricity in a dose‐dependent manner, and the maximum power output by the MFC from a 1 g of chemical oxygen demand/L slurry was 0.34 mW/m². After the MFC treatment, 84% of the biological oxygen demand in the slurry was removed and three essential fertilizer elements (nitrogen, phosphorus, and potassium) were retained at 84, 70, and 91% levels, respectively. The amount of ammonia nitrogen in the slurry, as an element of fast‐release fertilizer, was increased by 1.9‐fold. Although the treated slurry displayed properties that made it preferable as liquid manure, further studies to improve the electrical power output by the MFC are required for practical use.     

饲用油腊的加工技术及应用

本文介绍了近几年在饲料工业生产中不同饲用油脂添加技术应用及研究,重点对常规喷涂技术、真空喷涂技术和固态油脂喷雾干燥技术进行综述、分析,并对饲料中应用的固态油脂生产加工和应用技术进行了展望。     

威海市城市生活垃圾处理产业化发展研究

城市生活垃圾产业化处理是解决城市生活垃圾处理问题的有效途径。通过对威海市城市生活垃圾源头分类、终端处理、资源再生等进行分析,指出威海市目前存在垃圾源头分类未成体系,产业化程度低等问题。借鉴美国、德国及中国江苏省等国内外城市生活垃圾处理经验,提出建立完善的垃圾分类回收体系,提高垃圾处理产业化规模等建议,以促进威海市城市生活垃圾的产业化处理进程。     

猪场废弃物处理技术与应用

养殖废弃物对环境的污染越来越严重,为保证养殖与环境协调发展,我国开展养殖废弃物综合利用方式的研究。近年,各地开发出多种废弃物处理和利用方式,主要是以循环发展理念为技术发展方向,提高废弃物循环利用效率。该文列举国内外的养殖废弃物处理技术,结合我国生猪养殖现状,总结出适合我国的生猪养殖废弃物高效利用技术。     

固态热带假丝酵母菌菌剂的发酵工艺研究

试验在单因素优化试验的基础上,采用正交试验进一步对热带假丝酵母菌固态发酵工艺进行研究,包括发酵时间、接种量、料水比、碳源、氮源、无机盐等因素,最终确定热带假丝酵母菌的固态发酵工艺。发酵条件:在自然pH值条件下,发酵温度30℃、发酵时间48 h、接种量11%、料水比1∶0.75。培养基成分:麸皮与甘油8.5∶1.5 (g/g)、尿素0.5%、磷酸二氢钾0。依照此工艺进行发酵,热带假丝酵母菌活菌数最高可达32.94×10⁸个/g。