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智能紫外线消毒监控器1目录一、项目简介·····································································3二、执行总结·····································································3(一)项目的研究意义·································································3(二)项目的国内研究现状和发展动态···················································3(三)项目的国外研究现状和发展动态···················································4三、主要研究产品、目标或经济技术指标··········································5(一)主要研究产品···································································5(二)研究目标·······································································5四、研究方法、技术路线、实验(设计)方案·········································6(一)研究方法·······································································6(二)技术路线······································································7(三)实验方案······································································8五、可行性分析与项目背景······················································8(一)项目的必要性、可行性···························································8(二)项目背景······································································9六、产品与服务·································································10(一)技术水平·····································································10(二)服务范围·····································································10(三)技术支持······································································10(四)项目优势······································································11(五)项目风险······································································11(六)项目计划目标··································································11七、项目预期成果·······························································11八、市场调查与分析·····························································11(一)项目的市场调查····························································11(二)盈利分能力分析································································12(三)项目的社会效益分析····························································13(四)项目的市场需求分析··························································142九、经费预算····································································15十、财务报表····································································15十一、附录····································································19(一)电气原理······································································19(二)显示屏说明····································································19(三)产品部件说明··································································20(四)产品使用说明··································································21(五)试用情况······································································223一、项目简介众所周知,我们身边充斥着各种致病微生物,它们一方面对婴幼儿与老年人的健康产生了莫大威胁,一方面又容易成为致敏原和传染源,是家庭社会重要的潜在的隐患。而高强度的紫外线恰恰能有效抑制这些致病微生物的生长,且天然、高效、安全,为我们的健康保驾护航。基于此,我们设计了安洁儿,把健康惠及亿万家庭。针对当下社会的实际情况,我们推出一类全新的医学和电子学交叉学科产品---智能紫外线消毒器,以更有效、安全、可靠、准确、直观、普适以及经济便捷等功能解决所有公共场合以及私人住所等外在生活环境的消毒及监控问题。我们产品核心技术是窄波技术,在我们的紫外线灯管上装有一层特殊材料的镀膜,它可以控制紫外线波长200-275nm,产生浓度0.01mg/L的臭氧。低浓度臭氧有杀菌除甲醛作用,但普通紫外线消毒会产生浓度超过0.01-0.02mg/L的臭氧,对人体有毒害反应引起呼吸道黏膜刺激反应,以及过敏性支气管炎,支气管哮喘等疾病,我们的核心技术很大程度的解决了社会的痛点,并且消毒效果可达医疗卫生消毒要求99.9999%。二、执行总结1.项目的研究意义1.1我们将通过推广普及智能紫外线消毒监控器,将其投入到私人住所和公共场所中,从而对难以免疫的细菌和病毒采取措施予以控制,确保人们免受病原微生物的侵害。1.2此外,紫外线消毒监控器能净化空气,消除霉味,产生一定量的负氧离子,经紫外线消毒的房间,空气特别清新。在公共场合,经紫外线消毒,可避免一些病菌经空气传播或经物体表面传播。1.3智能紫外线消毒监控器采用窄波技术,使用寿命长,在环保工程方面的应用意义重大。针对当下社会的实际情况,我们推出一类全新的医学和电子学交叉学科产品——智能紫外线消毒监控器,以更有效、安全、可靠、准确、直观、普适以及经济便捷的解决所有公共场合以及私人住所等外在生活环境的消毒及监控问题。对于难以免疫的细菌和病毒必须采取措施予以控制。消毒是指用物理或化学方法消灭停留在不同的传播媒介物上的病原体,藉以切断传播途径,阻止和控制传染的发生。其目的:(1)防止自然病原体播散到社会中,引起流行发生。(2)降低人为干预环境中自然病原体的总量,降低人类社会病原体的密度,降低病原体发生变异的概率,维护生活空间的安全。(3)防止人造变异病原体造成的危害。2.国内的研究现状和发展动态目前国内研究、生产和应用污水UV消毒器者为数尚少。天津大学的顾平等人以天津纪庄子污水4处理厂的深度处理出水为研究对象,进行了静态和动态试验,确定了紫外线剂量与细菌存活率之间的关系,并设计出能产生紊流的UV消毒器。多元水环保技术产业(中国)有限公司研制生产的封闭式消毒器可处理100~500m3/h水量,并且在游泳池的循环水消毒中已有应用,模块化敞开式消毒器可根据用户需求具体设计安装。烟台市套子湾污水厂的深度处理采用了敞开式UV消毒工艺,可向城市提供4×104m3/d的工业回用水,目前运行状况良好。现代中国食品工业包装材料的杀菌过程中应用最广泛的消毒方法是利用各种微生物对高温的敏感反应,使用高温或热水达到消毒的目的。但该种消毒方法最大的缺点就是消毒设备结构复杂,运行成本过高。在发达国家,用紫外线对包装材料进行杀菌已经成为应用最普遍的杀菌方法。使用紫外线杀菌既降低了消毒设备的运行成本又不会产生类似化学药剂的有毒残留,是目前最经济有效、环保、安全的消毒方式。国内有非常多的紫外线灯生产企业,但大多数的企业生产的紫外线灯质量都不足以满足食品工业中对包装材料的杀菌要求。导致这种情况的产生有多方面的原因,其中最主要的因素在于大多数的企业无法很好地解决灯管寿命和紫外线输出强度的矛盾。3.国外研究现状及发展动态20世纪70年代以后,人们发现传统的氯消毒会产生致畸、致癌、致突变的卤代烷等副产物,而UV消毒法则具有不投加化学药剂、不增加水的嗅和味、不产生有毒有害的副产物、消毒速度快、效率高、设备操作简单、便于运行管理和实现自动化等优点,近20年来逐渐得到广泛应用。近年来,一些污水厂将原有的氯消毒系统改造成为紫外线消毒系统,譬如美国新罕布什尔州、得克萨斯州、俄亥俄州等地的污水厂。因为UV消毒接触时间短、占用的空间小,故完全可以利用已有的氯接触池改造成紫外线消毒系统。紫外线消毒器辐照强稳定性高,消毒寿命长,在制药生产灭菌过程中起到重要作用。从紫外线消毒器原材料采购、应用领域拓展、紫外线消毒器加工能力提升以及整个产业链看,紫外线消毒器行业仍具有广阔的发展空间。预计未来几年中国水处理、食品、医疗、制药等领域对紫外线消毒器的需求仍将快速增长,紫外线消毒器行业发展前景看好。过流式紫外线消毒器杀菌速度快、效率高、效果好,按水处理要求照射10秒钟后,就可杀死水中病毒、细菌,杀菌率99.99%。水经照射后,不会改变其物理、化学性质,也不会引起污染。且操作简单,使用方便。而河北智创兴邦环保科技有限公司研发生产的不锈钢过流式高效紫外线消毒灭菌器,使经过预处理的水流过筒体时受到波长253.7nm紫外线足够量的照射,具有良好的杀菌效果,该设备体积小、重量轻、耗电少、寿命长、成本低,与其它杀菌方法相比具有显著的优越性,且不改变水的物理、化学性质,是电子、医药、食品、化工、饮料、化妆品行业制取纯水、高纯水中时不可少的理想设备。5近年来,随着我国技术的不断发展,我国紫外线杀菌器行业取得了良好的发展,其在水处理行业普及率在不断提高,行业需求正在不断增加,有数字预测,到2021年,我国紫外线杀菌器行业市场规模将有望突破73亿元,市场前景较为乐观。但