生物接触氧化法处理微污染源水的研究进展与应用

本文概述了生物接触氧化法净化水质的原理、水质处理效果、主要影响因素、国内应用情况、优势和局限性,指出传统的自来水处理工艺处理微污染源水所提供的自来水水质己不能满足要求,生物接触氧化预处理与传统处理工艺结合是一种经济有效的改善自来水水质的有效方法,显示了可观的应用前景.     

烟气CO2捕集纯化装置设计要点分析

利用CO2驱油不仅可以提高原油采收率和延长油井生产寿命,还可以减少CO2的排放,保护大气环境,而CO2捕集技术是驱油过程中的重要环节之一.对现有的装置设计技术进行了研究分析,同时结合工程经验,分别从装置的组成、预处理系统的设计要点、吸收解析系统中化学吸收剂的选择、引风机的设置、系统水平衡的保持措施、系统能量的回收利用措...     

餐厨垃圾预处理工艺研究及现场应用

餐厨垃圾有机质含量大,具有较高的回收价值,资源化利用是发展的趋势,但是我国餐厨垃圾具有含水量大、杂物多、油脂提取难等特点,增加了处理的难度.研发一套餐厨垃圾预处理工艺,并对相关设备的结构尺寸进行了优化,形成了以精分选、高提油为特点的工艺技术,综合杂物拣出率达到95％以上,提油率达到98％以上.该工艺在光大国际宿迁100...     

脉冲电晕自由基簇射技术用于垃圾渗滤液预处理研究

低温等离子体技术是一种全新、高效、低能耗处理难降解有机废水的技术。采用自由基簇射与等离子体液面放电相结合的方式用于垃圾渗滤液预处理,能较好地提高活性自由基的利用率,降低能耗,增强垃圾渗滤液的可生化性,达到了预期的水质适应性强、处理效果稳定的高级氧化预处理效果,为渗滤液的后续处理奠定了良好的基础。     

A review on the production of fermentable sugars from lignocellulosic biomass through conventional and enzymatic route—a comparison

The scarcity of fossil fuels has urged the economically developed countries to find the resources for an alternative energy sources. In apprehension to this, biofuels, like bioethanol and biobutanol, produced from lignocellulosic biomass were considered as potential alternative. There are several methods for the pretreatment of biomass before it is being used as a feedstock for the production of fermentable sugars. However, one of the crucial concerns here is to enumerate an economic pretreatment scheme that can be implemented in large scale for the production of mostly exposed cellulosic part from biomass. This will ensure an effective hydrolysis of cellulose for the production of fermentable sugars and the production of biobutanol from these derived sugars. Moreover, the keynote understanding of an effective fermentation is the production of less inhibitory compounds like furfural, hydroxymethyl furfural during the hydrolysis of cellulose. Enzymatic hydrolysis of cellulose was reported as the most efficient method is this aspect. Trichoderma sp. was found the mostly used resources for the enzyme called cellulase and Aspergillus sp. for hemicellulase enzymes. The most crucial part here is the isolation of proper enzyme that will increase the rate of hydrolysis. Moreover, selection of proper pretreatment process will be a key benefit to the production of fermentable sugars through enzymatic hydrolysis. Based on the biomass nature, the evaluated hot water pretreatment followed by enzymatic hydrolysis with a provision of enzyme reusability (like encapsulated or enzyme separation with membrane) seems to be promising for enhanced biofuel-production.     

Recent progress in bioethanol production from lignocellulosic materials: A review

Natural energy sources like petrol and diesel are going to be diminished in the coming future which will lead to increase in the prices and demands of fossil fuels. Therefore, it is important to find a sustainable alternate of fossil fuels. Bioethanol is one of the alternatives, which is produced from different feedstocks including sugar-based, starch-based and lignocellulose-based materials through fermentation. Since sugar-based (sugar cane and sugar beet) and starch-based (corn) materials are sources of staple food, therefore, research on lignocellulosic materials for bioethanol production is a subject of recent studies. Ethanol production from lignocellulosic materials involves different steps, such as pretreatment, hydrolysis, followed by fermentation process and finally ethanol purification. In this review, we have summarized the recent progresses in bioethanol production and processing from lignocellulosic materials.     

The influence of dilute sulfuric acid pretreatment on biogas production from wheat plant

Dilute sulfuric acid pretreatment was used to improve the biomethane production from wheat plant (WP) via mesophilic anaerobic digestion. The pretreatments were performed at 121°C for different time durations of 10, 30, 60, and 120 min. The maximum methane yield of 302.4 mL/g volatile solids (VS) was obtained after the pretreatment for 120 min, which was 15.5% higher than that of the untreated WP. The highest amounts of lignin removal (15.2%) and xylan degradation (91.5%) were also achieved after this pretreatment. The pretreatment for 60 min enhanced the methane yield by 8.9%, while the pretreatments for 10 and 30 min had no positive effects on the methane yield. All of the pretreatments significantly removed the hemicelluloses. Moreover, the qualitative analysis of the untreated and pretreated WP structure showed significant reduction in the crystallinity index accompanied by the destruction of surface layers of WP structure after pretreatment.     

Ethanol production from alkali-pretreated oil palm empty fruit bunch by simultaneous saccharification and fermentation with mucor indicus

Oil palm empty fruit bunch (OPEFB) is a potential raw material for production of lignocellulosic bioethanol. The OPEFB was pretreated with 8% sodium hydroxide (NaOH) solution at 100°C for 10 to 90 min. Enzymatic digestion was carried out using cellulase and β-glucosidase at 45°C for 24 h. It was then inoculated with Mucor indicus spores suspension and fermented under anaerobic conditions at 37°C for 96 h. Sodium hydroxide pretreatment effectively removed 51–57% of lignin in the OPEFB and also its hemicellulose (40–84%). The highest glucan digestibility (0.75 g/g theoretical glucose) was achieved in 40-min NaOH pretreatment. Fermentation by M. indicus resulted in 68.4% of the theoretical ethanol yield, while glycerol (16.2–83.2 mg/g), succinic acid (0–0.4 mg/g), and acetic acid (0–0.9 mg/g) were its by-products. According to these results, 11.75 million tons of dry OPEFB in Indonesia can be converted into 1.5 billion liters of ethanol per year.     

固硫灰路面基层材料的性能

以固硫灰作为路面基层材料,研究了固硫灰原灰和经预处理固硫灰路面基层材料的最佳含水量、最大干密度、体积安定性、膨胀率和强度等性能。同时,通过重金属浸出实验评估了固硫灰对土壤环境的影响。结果表明,经预处理固硫灰路面基层材料体积安定性好,膨胀率低,性能良好;此外,固硫灰重金属浸出率低,符合环保要求。     

热处理对脱水污泥溶解特性及厌氧消化性能的影响

分别对脱水污泥在100、130和170℃条件下进行热处理,研究热处理对脱水污泥溶解特性的影响。此外,在半连续式完全混合反应器中进行厌氧消化实验研究不同热处理污泥的厌氧消化性能。实验结果表明,在100、130和170℃条件下,污泥COD溶解率由处理前的5.23%分别提高至20.08%、22.50%和27.20%,脱水污泥热处理规律和效果与高含水率污泥(总固体含量<5%)基本一致。经130℃2 h和170℃30 min高温热处理后污泥甲烷产率显著提高,较原泥分别提高24.64%和38.61%,沼气中甲烷含量稍有降低。