一种新的可持续的绿色解决方案来处理和蒸发隐藏盐水废水

IF 0.6 4区 工程技术 Q4 CHEMISTRY, APPLIED
R. Vreeland, J. Long
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引用次数: 0

摘要

用盐腌制兽皮会释放大量多余的水分,这些水分必须处理掉。在较大的屠宰场,这可能导致生产数万加仑的饱和盐水,这些盐水也被来自兽皮的生物材料污染。这些盐水通常储存在封闭的蓄水池中,最终会填满并需要更换,或者工厂必须建立多个蓄水池。专有的、基于生物的、可持续的亲盐蒸发应用技术(H.E.A.T.)工艺是一种加速饱和盐盐水蒸发的方法。这一过程已经在一家正在运营的美国牛肉工厂的一个全尺寸泻湖中进行了18个月的测试。这个过程在一年内成功地蒸发了额外的31.99英寸(866,900加仑)英亩的浓缩盐水,几乎使南泻湖干涸。在同一对照泻湖中,同一盐水的环境蒸发量仅为19.19英寸(52万加仑)英亩-1,这表明H.E.A.T.微生物的盐水蒸发量增加了1.66倍。在2020年期间,该工厂生产了3,376,000加仑的盐水,这意味着H.E.A.T.在第一年蒸发了一个泻湖中工厂产量的100.4%。这是在没有额外基础设施、设备或外部供暖的情况下完成的。在这项测试中,泻湖的生化需氧量下降了98%以上,同时气味也减少了。从2020年10月开始,泻湖开始接收该工厂每天生产的所有盐水。这种情况持续了整个冬季,在此期间,该过程蒸发了超过34%的流入。持续施肥和微生物增加对系统的持续健康发展至关重要。总的来说,不断流入的新鲜皮革盐水刺激了这一过程及其必需的微生物种群。微生物工艺增加了浓盐水的盐水蒸发,减少了气味,代表了一种新的环保机制,可以解决长期困扰皮革生产商的工业问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
H.E.A.T. A New Sustainable Green Solution for Treating and Evaporating Hide Brine Wastewater
Salt curing of hides releases a significant amount of excess water that must be disposed. In larger abattoirs this can result in production of tens of thousands of gallons of saturated salt brine that is also contaminated with biological material from the hides. These brines are often stored in enclosed impoundments that ultimately fill and need replacement, or the facility must build multiple impoundments. The proprietary, biologically based, sustainable Halophilic Evaporative Applications Technology (H.E.A.T.) process has been developed as a method to accelerate the evaporation of salt saturated brines. The process has been tested for 18 months in a full-scale lagoon located at an operating American beef plant. The process successfully evaporated an additional 31.99 inches of brine (866,900 gal) acre-1 of concentrated hide brine in one year, nearly drying out the South lagoon. Ambient evaporation of the same brine in an identical control lagoon at the site was only 19.19 inches (520,000 gallons) acre-1 representing a 1.66x increase in brine evaporation from the H.E.A.T. microbes. During 2020, the plant produced 3,376,000 gallons of brine, meaning H.E.A.T. evaporated 100.4 % of plant production in one lagoon in its first year. This was accomplished without additional infrastructure, equipment or external heating. During this test, Biochemical Oxygen Demand in the lagoons decreased over 98% with concomitant odor reduction. Beginning in October 2020, the lagoon began receiving all brine produced daily by the plant. This continued over the winter period, during which time the process evaporated over 34% of the inflow. Continued fertilization and microbial augmentation are essential for the continued healthy development of the system. Overall, the process and its essential microbial populations were stimulated by continuing inflow of fresh hide brines. The microbial process increases brine evaporation of concentrated salt brines, reduces odors and represents a new environmentally friendly mechanism for solving an industrial problem that has long plagued hide producers.
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来源期刊
Journal of The American Leather Chemists Association
Journal of The American Leather Chemists Association 工程技术-材料科学:纺织
CiteScore
1.30
自引率
33.30%
发文量
29
审稿时长
3 months
期刊介绍: The Journal of the American Leather Chemists Association publishes manuscripts on all aspects of leather science, engineering, technology, and economics, and will consider related subjects that address concerns of the industry. Examples: hide/skin quality or utilization, leather production methods/equipment, tanning materials/leather chemicals, new and improved leathers, collagen studies, leather by-products, impacts of changes in leather products industries, process efficiency, sustainability, regulatory, safety, environmental, tannery waste management and industry economics.
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