On June 4th, 2019, The National Intellectual Property Administration, PRC released a notice, which announced that the Enesoon’s “ Thermal Storage Cell” system has obtained a design patent (Patent number:ZL 201830483397.3) . Let’s see how this product looks!
According to Patent Law Article 11, if a design patent has been granted, no unit or individual may exploit the patent without permission of the patentee, which means it or he may not, for production or business purposes, manufacture, offer to sell, sell or import the design patent products.
Besides of the design patent, Enesoon also applied for a series of intellectual property application for its energy storage related devices and equipment, which includes storage devices, pipe connections, heat exchanger, insulation structure, heating structure, controller, stirring device etc.. These products has been continuously manufactured. They eliminate problems such as clogged pipes due to cold weather, uneven heating within the storage device, bad insulation, hard to control flow, and other challenges that the industry may face. The storage system has now been successfully used in areas of clean heating, photothermal power generation, industrial steam system, micro-grid, waste heat utilization and other fields.
What are the other underlying secrets that the beautiful “Thermal Storage Cell” have?
The“ Thermal Storage Cell” system is the warehouse for energy storage.
Thermal energy is the energy of life. People consume heat through working, exercising, studying, performing all the physical and physiological activities, and maintaining normal body temperature for survival. Lack of thermal energy will cause trouble for human’s production and living. But it is also wasteful if there is a surplus of thermal energy produced. Therefore, energy storage is extremely important.
The“ Thermal Storage Cell” system is the carrier for thermal energy storage mediums.
Thermal storage material is a new form of chemical material that can store energy. The material will change under a specific temperature , and then can be used to control the surrounding temperature or to store thermal energy, through absorbing and releasing heat. The“ Thermal Storage Cell” system contains a variety of mediums for thermal energy storage, it preserves the energy and then releases it when needed in the future. The process increases its utilization rate.
The“ Thermal Storage Cell” system is the hub of thermal energy collection and utilization.
The core theory behind energy storage is to transform other forms of energy into thermal energy, and then preserve the energy for future use. When needed, the energy will transform into heat for supply via heat exchanger. The technology can provide a safe and reliable heat supply system that eliminates instability and other problems that may occur in using new energy. It also provides a smooth operation, ensuring the system to work efficiently and safely, and reducing the cost of clean energy.
Enesoon’s Hybrid Smart Energy Storage system (HSES) adopted the energy storage technology, these are the advantages compared with traditional heating system:
A. Use energy storage devices to make deep use of off-peak power to add no or little capacity to the grid.
B. Energy storage is the core and key point for Complementary Multiple Energy development. If rely on off-peak electricity direct heating solely, it will be less efficient than the combination of “Energy Storage + Complementary Multiple Energy” technology. They can couple different uncontrollable and unstable source of energy together, determine the most efficient time period, make more use of it and preserve the remaining energy for future use.
C. The cost is comparable to the use of coal, no stress added for customers, high return investment.
D. No need for long-term government subsidy, the company offers long-term operation maintenance and support services to customers, ensuring the quality of the product.
The system comes with significant economic, environmental and social benefits. By installing Enesoon’s clean energy cooling and heating station in 10 thousand villages, which is 1 billion square meters, it can reduce 14.76 million tons of coal use each year, and also reduce 32.35 million tons, 220 thousand tons and 39 thousand tons of carbon dioxide, sulfur dioxide and nitrogen oxides emissions respectively. The numbers are equal to 148.19 million new trees planted in the area. The technology can solve the significant challenges that the industry may face, therefore it should be widely promoted.
Enesoon, as a whole industry chain service provider for the HSES system, offers consultation, design, equipment system, operation maintenance management system and energy interconnection system to its customers. The core of the system “ Energy Storage + Complementary Multiple Energy + Smart Energy System” , can overcome the defects in traditional heating system. The technology is meaningful for the development of clean energy, and can bring real energy conservation and emission reduction into our life.
高效储热的重要“法宝”
2019年6月4日,国家知识产权局发文通知,爱能森申请的一项名称为”储罐”的外观设计专利获得授权(专利号:ZL 201830483397.3),那么,此外观专利产品到底长什么样,马上亮出其”美颜”。没错,它还有个温暖又时髦的专有名字——“热池”。
根据专利法第十一条规定,外观设计专利权被授予后,任何单位或者个人未经专利权人许可,都不得实施其专利,即不得为生产经营目的制造、许诺销售、销售、进口其外观设计专利产品。看来,以后要为其“美颜”买单了。好消息是,除了这一件刚刚获得授权的关于储罐的外观专利,爱能森在储能相关装备上申请了一系列的知识产权保护,围绕储罐、连接管道、换热器、保温结构、加热结构,控制器、搅拌装置等等,并陆续产业化。解决了诸如管道冻堵、储罐内介质加热不均、保温不好,难以控制流量等一系列的行业难题,目前已在清洁供暖、光热发电、工业蒸汽、微电网、余热利用等多个领域成功应用。
听起来就这么厉害,又具有如此美颜的“热池”,到底还有多少隐藏的秘密呢:
热池是能量储存的仓库。热能是生命的能源。人的每天劳务活动、体育运动、上课学习和从事其他一切活动,以及人体维持正常体温、各种生理活动都要消耗热量。热能过少会对人类生产和生活产生不适,同样,热能产生过多也是一种资源的浪费。因此能量储存常常是非常重要的。
热池是储热介质的载体。储热材料是一种能够储存热能的新型化学材料。它在特定的温度下发生物相变化,并伴随着吸收或放出热量,可用来控制周围环境的温度,或用以储存热能。热池灌承载各种储热介质,把热量或冷量储存起来,在需要时再把它释放出来,从而提高了能源的利用率。
热池是热量收集与利用的枢纽。储热的具体原理是利用其他形式能量转换为热能,并通过特定的蓄热介质将热能在保温良好的条件下储存起来,当需要利用时再通过换热把所储存的热量提取出来加以利用。安全可靠的储能技术能够克服新能源的间歇性和波动性问题,实现“源—网—荷”的缓冲和平滑过渡,保证系统的效率和安全性,又可降低清洁能源的成本。
爱能森赫爱斯系统采用了储能技术,相较于现有的供热系统具有如下优势:
A、利用储能设备深度利用谷电,使电网不增容或少增容。
B、储能是实现多能互补发展的核心及关键,单纯利用谷电直接加热能效比太低,利用储能+多能互补的技术路线,将各种不可控不稳定、效率波动的能量来源,用储能系统耦合在一起,什么能源什么时刻效率最高,就多利用并储存下来,实现跨时段的最优能源配比。
C、成本等同于煤,不增加用户的压力,投资回报高。
D、政府不需要长期补贴,且长期运维保证供暖质量。
储能系统的运用,带来了显著的经济效益、环境效益和社会效益。在一万个村(相当于10亿平方米)推广赫爱斯清洁能源冷暖站,每年可以节约标准煤1476万吨,减少二氧化碳排放量3235万吨,减少二氧化硫排放量22万吨,减少氮氧化合物排放量3.9万吨,相当于给当地植树14819万棵,该技术的实施,有效解决了本领域关键性、共性的技术难题,有必要广泛推广。
技术的进步,对知识产品的占有、使用势必带来极大的经济优势。爱能森作为储能全产业链专业服务商,给客户提供以“储能+多能互补+智慧能源”为核心的赫爱斯系统咨询设计、核心装备、运维管理及能源互联网等产品服务,使传统供暖系统的缺陷得以彻底改观,对于清洁供暖系统的升级与整体发展具有十分重要的现实意义,对于清洁能源产业的长远发展、依托高价值核心专利技术实现真正的节能减排具有重要的战略意义。
