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Multigrain ripening production line
The maturing equipment production line is designed intelligently, continuously, and automatically based on the initial processing of miscellaneous grains. The entire production line requires very little labor and shortens the production cycle. Microwave curing equipment can be low ...
Catalyst production line
The production method of the assembly line has high productivity. Due to the professional production and the use of special equipment and mechanized transport devices on the assembly line, it can improve labor productivity, shorten the production cycle, accelerate capital turnover, ...
Fruit and vegetable chip production line
This fruit and vegetable crispy chip production line uses the patented technology of Boda microwave vacuum series products, combined with unique design concepts and superb manufacturing processes. The low temperature vacuum frying production line has color retention, fragrance retention, and reduced fat ...
Agricultural and sideline production line
This production line is used for rough and fine processing of agricultural and sideline products. It has intelligent, continuous and automatic functions. The entire production line requires very little labor, shortening the production cycle, improving product quality, and ensuring balanced production ...
High-temperature sintering production line
Microwave sintering is a new method of material sintering process. It has the characteristics of fast heating, high energy utilization rate, high heating efficiency, safety, health and pollution-free, etc., and can improve product uniformity and yield ...
Chinese medicine pill production line
Pills in the traditional sense are roughly divided into: water pills, water honey pills, and honey pills. Suitable for microwave drying are water pills and water honey pills.
Shiitake Production Line
The fresh shiitake mushroom drying and processing production line equipment adopts automatic assembly line operation mode, adopts intelligent conveyance control, hot air energy saving cycle drying, microwave sterilization treatment, cooling discharge packaging, and the entire production line is based on actual ...
Silicon Carbide Production Line
Silicon carbide is a man-made material with good thermal conductivity and high hardness. At present, it has been widely used in the fields of super refractory materials and abrasive materials, this time focusing on the production line of green silicon carbide fine powder. Simultaneously...
Diamond production line
The diamond processing production line mainly uses equipment such as AGV conveyor, hoist, microwave drying, screening and selection. Can be automated without manual intervention.
Jujube production line
The production line is designed intelligently, continuously, and automatically based on domestic jujube processing technology. The entire production line requires very little labor, enabling centralized control, remote operation and various production numbers ...
Chrysanthemum production line
This production line is a new field for drying and killing green tea products. The principle of microwave drying is that the microwave energy directly acts on the molecules of the material, causing the molecules to generate 2.45 billion shocks per second.
Rose production line
According to the characteristics of roses, it adopts a composite process of microwave and hot air to increase the cell liquid recovery and condensation system. It is a highly intelligent composite processing production line.
Daylily Production Line
The production line equipment of Boda Daylily drying and killing green machine adopts the domestic Boda exclusive microwave heat pump hot air composite drying technology, which can more effectively protect the color, fragrance, taste, ...
The Internet of Things is Internet of Things in English, abbreviated as IOT. In 2005, the International Telecommunication Union defined it as: various information sensing devices, such as radio frequency identification (RFID) devices, infrared sensors, sensors, global positioning systems, lasers Scanners, etc., form a huge network combined with the Internet to realize intelligent identification and management. At present, there are many local IoT application networks, which are at the initial stage of the development of IoT. The Internet of Things is closely related to people's lives and will drive changes in human lifestyles. At this stage, the Internet of Things is a local application network formed by the use of various information sensing technologies and information transmission and processing technologies to enable the state of the managed object (person or thing) to be sensed and identified; in the near future In the future, the Internet of Things will connect these local application networks together through the Internet and communication networks, forming a huge network of people and things, things and things, and an infrastructure for sensing China and the Earth.
"Internet of Things Concept" is a network concept based on the "Internet Concept" that extends and expands its client end to any item and item for information exchange and communication. Its definition is: through radio frequency identification (RFID), infrared sensors, global positioning systems, laser scanners and other information sensing equipment, according to the agreed protocol, any item is connected to the Internet for information exchange and communication to achieve intelligence A network concept for identifying, locating, tracking, monitoring, and managing.
First, it is a widespread application of various sensing technologies. Massive types of sensors are deployed on the Internet of Things. Each sensor is an information source, and the content and format of information captured by different types of sensors are different. The data obtained by the sensor is real-time, and periodically collects environmental information at a certain frequency and continuously updates the data.
Second, it is a ubiquitous network built on the Internet. The important foundation and core of the Internet of Things technology is still the Internet. Through various wired and wireless networks, it is integrated with the Internet to accurately and accurately transmit information about objects in real time. The information collected regularly by sensors on the Internet of Things needs to be transmitted through the network. Due to its huge amount, a large amount of information is formed. During the transmission process, in order to ensure the accuracy and timeliness of the data, it must adapt to various heterogeneous networks and protocols .
Thirdly, the Internet of Things not only provides the connection of sensors, but also has the ability of intelligent processing, which can implement intelligent control of objects. The Internet of Things combines sensors and intelligent processing, and uses various intelligent technologies such as cloud computing and pattern recognition to expand its application fields. Analyze, process and process meaningful data from the massive information obtained by the sensors to meet the different needs of different users and discover new application areas and application models.
The application of the Internet of Things through intelligent sensing, recognition technology, pervasive computing, and ubiquitous network integration is called the third wave of the world's information industry development after computers and the Internet. The Internet of Things is an application extension of the Internet. Rather than saying that the Internet of Things is a network, it is better to say that the Internet of Things is business and applications. Therefore, application innovation is the core of the development of the Internet of Things, and innovation 2.0 with user experience as the core is the soul of the development of the Internet of Things.
It was originally proposed in 1999: to connect any item with the Internet for information through radio frequency identification (RFID), infrared sensors, global positioning systems, laser scanners, gas sensors and other information sensing equipment A network that exchanges and communicates to achieve intelligent identification, positioning, tracking, monitoring, and management.
The China Internet of Things School-Enterprise Alliance defines the Internet of Things as the combination of almost all current technologies with computers and Internet technologies to achieve objects-to-objects: real-time real-time sharing of environmental and status information and intelligent collection, transmission, processing, and execution . Broadly speaking, the current application of information technology can be included in the category of the Internet of Things.
In its well-known technology fusion model, the Internet of Things is proposed as the technology concept and application closest to the top of the model. The Internet of Things is an information-bearing body based on the Internet, traditional telecommunications networks, and the like, allowing all ordinary physical objects that can be independently addressed to achieve interconnection and interconnection. It has three important characteristics: smart, advanced, and interconnected.
Turnkey project refers to the construction of a factory or other engineering project by a multinational company for the host country. Once the design and construction project is completed, including the installation, commissioning and initial operation of the project, the "key" of ownership and management of the plant or project is completed in accordance with the contract The land is “turned over” to the other party, and the other party starts the business. Therefore, turnkey projects can also be seen as a special form of management contract.
Turnkey project is a non-equity investment method developed after multinational companies in developed countries have been hindered from investing in less open developing countries. For example, in the socialist countries before the reform and opening up, except for a few countries such as Yugoslavia and Romania, most countries do not allow foreign companies to invest, so foreign companies can only rely on other means to engage in investment or business. Turnkey projects are one of them. Effective one. In addition, when you have the cutting-edge technology required by a certain market, and you want to quickly cover the market in a large area, and the available capital and other factors are insufficient, you can consider adopting a turnkey engineering method.
In practice, because each turnkey project plan must have its own characteristics, it is difficult to have a consistent standard turnkey project contract. However, no matter how complicated the details of the contract are, both parties should make clear the important matters such as the plant and equipment in the contract, the obligations and responsibilities of the parties, the meaning of force majeure, the legal liability for breach of the contract, and the procedures for dispute settlement.
In addition, as with general technology licensing, continued service after project delivery may be an important profit path for such turnkey projects. A Japanese manufacturer has not hesitated to construct a power plant for Indonesia in a "self-sacrifice" way below cost. On the surface, this is a loss-making business, but in the long run, the supply of spare parts, maintenance and repairs required by power plants in the future will depend on Japan's support for a long time. The accumulated benefits will undoubtedly be considerable. .
The "turn-key" project is actually a highly specialized export and a form of technology trade. There are generally three types of enterprises participating in turnkey project business activities: manufacturers of construction equipment, construction companies, and consulting companies, with construction companies being the most. The technology importers are generally the relevant government agencies, most of which are developing countries.
According to the requirements of the technology importer, there are two types of turnkey methods: one is to complete the technology transfer after the contracted project is completed and the test run is successful, and the contractor must train the contractor. The management, technical, and operating personnel of the technology importer shall be handed over only when the personnel of the technology importer meet the requirements specified in the contract. The difference between the two methods for technology exporters is mainly the difference in risks. In the former method, the technology exporter only bears its own technical risks. In the latter method, the technology exporter must bear the risks of the technology importer in terms of technology and management in addition to its own risks.
"Turnkey" projects can enable companies to obtain high economic returns from their assets, especially when host countries restrict foreign direct investment. This strategy is particularly effective. For example, many oil-rich nations ’governments have begun building their own refining industries, To achieve this, the governments of these countries restrict foreign direct investment in the oil and refining sectors. However, because many countries lack the technology for refining, they have to obtain this through the implementation of turnkey projects with foreign companies that own the technology. Such technologies are often very attractive for seller companies, because without them, they would not be able to reap the rewards of their valuable know-how in the country. At the same time, it would also reduce the investment in the host country. Risk, and unlike traditional foreign direct investment, the transaction is short-term investment, which can avoid some of the risks of long-term investment.
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