Usually the service life of solar photovoltaic panels is about 20-30 years, according to statistics, by 2050 the number of end-of-life photovoltaic panels will be tens of millions of tons, such a huge amount, from the starting point of the circular economy to consider, the recycling of end-of-life photovoltaic panels, in order to achieve the green photovoltaic panels from the source to the end of the environmental protection. So how should the end-of-life photovoltaic panels be recycled? A typical crystalline silicon solar PV panel consists of 65-75% glass, 10-15% aluminium frame, 10% plastic and 3-5% silicon. Recycling is the sorting and reuse of these materials in three main steps: first the PV panel module is dismantled, then it is shredded and finally the valuable metals in the PV panel are extracted by pyrolysis. Shredding as an important part of the recycling process, the photovoltaic panels are first shredded to facilitate the next step of recycling and sorting. Usually choose double-shaft shear
The storage of chemical solvents is generally done in special plastic drums, also called chemical drums, the more common ones on the market are the big blue drums. Plastic drums are stable in nature and do not affect the stability of the stored solvents, they also have a good isolation effect on all types of corrosion and toxicity, and are therefore widely used in the chemical industry. The iconic big blue drums in particular, with their better shading properties, are used particularly often. This has also resulted in what we are used to calling the big blue barrel crushing process when dealing with used chemical barrels. The big blue drums can be divided into hazardous solid waste and ordinary plastic drums according to their use. In addition to the big blue drums used to store hazardous chemical solvents, other storage of harmless items are harmless ordinary plastic drums, and their recycling treatment is naturally different. When crushed, ordinary plastic drums only need to be shredded by shredders, and
Large amounts of production waste are generated during paper manufacture. Wire clips, staples, nails, hooks, adhesive tapes, plastic tapes, cords and other foreign matter such as foil residues are bundled in loose rejects and pulper plaits. With the right shredding technology, this pulper waste can be made usable. A industrial recycling company uses double-shaft shredder from AIShred in its production facilities in South Korea. The shredded residues are used as a substitute fuel to generate energy. The AIShred shredder shred more than 100 tons of residues every day. They have two 100 kW electric drive, with the help of which the pulper braids are reduced to a grain size of
FRP (fiberglass reinforced plastics) products have many advantages, such as high hardness, light weight and corrosion resistance. They are favored by many industrial products and are widely used in chemical industry, engineering, construction, electrical, communication, railway, automobile and other fields. As FRP products gradually reach the life cycle, recycling of waste FRP is becoming a new industry. What equipment is needed to deal with waste FRP? There are generally three directions for the recovery and regeneration of FRP, including chemical pyrolysis, shredding regeneration and energy recovery. First, shredding and regeneration. It is to use the shredder to shred the recycled waste FRP, and sell the FRP fines directly as raw materials, or turn them into FRP, or use them for processing composite materials. Simple and fast operation, typical short, flat and fast business model. Second, energy recovery. This is simpler. You can simply shred the waste FRP, directly package it and sell it to cement plants
Fiberglass, Fibre-reinforced plastic(FRP) is one of the most commonly used composite materials in the world today, with a wide range of uses, from wind turbine blades to boats and airplanes, to various containers and support components, fiberglass is everywhere. The main task of disposing of fiberglass is to avoid it being landfilled, because it is particularly difficult to degrade. Now, there are two better ways to recycle fiberglass as I know, the first is co-processing in cement kilns, and the second is to process it into recycled products. Co-processing of Fiberglass Waste in Cement KilnThere are many advantages in the treatment of fiberglass waste in cement kilns. One is that the energy in the waste can be recovered and energy consumption is reduced. The other is that fiber materials, silicon, alumina in the fiberglass can not only reduce the consumption of raw materials, but also improve the quality of cement.Material Recycling of Fiberglass Waste for new ProductsNow a new way of recycling fiberglass
The lifespan of solar photovoltaic panels is about 25 years, and more than 95% of the material can be recycled from scrapped and damaged solar PV panels using the latest technology. Aluminum frames can be recycled and sent to refineries, glass can be recycled into glass products, combustibles such as plastics can be recycled for energy, silicon can be reused in the precious metals industry, and heavy metals can be recycled. Due to the rapid development of the photovoltaic industry, a large amount of photovoltaic waste is about to be generated. How to efficiently recycle photovoltaic waste will soon become an important challenge for us. AIShred's low-speed dual-shaft shredder have been successfully applied in solar pv panels recycling plant in a photovoltaic power plant in western China. "This is an experimental photovoltaic waste recycling project. The overall process is to disassemble the aluminum frame, thermally separate the panels, then shred and sort. We chose AIShred among European brands and many
Although affected by economic fluctuations, Türkiye is still one of the fastest-growing economies in the world. The government has formulated and implemented ambitious plans for Türkiye's economic development.Türkiye's industry is developed, the urbanization rate is close to 80%, and there are many wealthy people, which will lead to a large amount of solid waste, landfill pollutes the environment and wastes a lot of non-renewable resources. Reuse, Reduce Recycle(3R) is currently the three most critical words in the field of solid waste treatment. Reuse refers to the reuse of undamaged items; reduce refers to reducing the amount of waste, which can reduce landfill consumption; and recycle refers to resource recycling, which converts discarded garbage into renewable products or energy.You need a shredding and recycling plant to complete the 3R mission.GEP ECOTECH provides shredding and recycling systems in Turkey that can be used to process various solid waste materials such as municipal solid waste,
A hammermill is a common type of equipment currently used for size reduction of solid waste. A hammermill consists of a central rotor or shaft with radial arms (hammers) protruding from the rotor circumference. The rotor is enclosed in a heavy duty housing, which may be lined with abrasion resistant steel members. Some hammermilIs may also have stationary breaker plates or cutter bars mounted inside the housing. Input material is reduced in size by impact, attrition, and shearing forces induced by the hammers. There are two basic types of hammermiIls: the horizontal shaft type and vertical shaft type. The horizontal shaft hammermill is the more common type. As the name implies, the rotor or shaft is horizontal and supported on each end. Input is usually at the top and material flows through the machine assisted by gravity. Force feed at the side of the hammermill has also been used for solid waste shredding. Most horizontal hammermiIls have a grate placed across the output opening. Input material cannot pass
The AIShred GSS single-shaft shredder is the result of 10 years of experience in mechanical engineering, in the design and manufacture of heavy industrial equipment. It is a single-rotor shredder and is capable of shredding almost all types of industrial and household waste: packaging, chipboard, plastic, wooden boxes, barrels, garbage containers, furniture, mattresses, paper, cardboard, foam plastic, consumer electronics, car and truck tires, etc. This high performance shredder is available in many different versions depending on the materials to be ground, the required capacity and the size of the final fraction. The shredder is available in various versions: mobile or stationary, with electric or diesel drive. Depending on the model, the weight of the shredder varies from 1 to 50 tons. GSS series single-shaft shredders are equipped with a high-performance all-metal rotor. The special rotor geometry increases cutting efficiency by up to 60% compared to conventional shredders. In addition, this
The service life of electrical wires and cables is from 10 to 25 years, after that it will be state of unstable and should be replaced. At the same time cable production waste and expired wires, together with used cables are generated every day, it's a large amount of waste. The good news is, the recycling value of electrical cables is high. The composition of cable waste contains non-ferrous metals (copper and aluminum). However, If you want to extract copper or aluminum from waste cables, there is a complete process to be done.Features of Cable RecyclingThe complexity of processing cable waste is their multicomponent composition. One cable can contain non-ferrous metals (copper or aluminum), steel sheath, textile and plastic components, polyethylene insulation. In the past, cable scrap is processed, removing only current-carrying cores. However, plastic accounts for up to 45% of cable weight and PVC for up to 70% of all plastic cable components, but these recyclable and reusable materials are simply thrown
Recycling aluminum profile waste - it is a profitable and efficient activity. The aluminum profile is often used in construction and decoration of houses, as this material has a long service life and an attractive appearance. However, any material needs to be replaced and the aluminum profile is no exception. Recycled aluminum is a high demand product and its characteristics are not inferior to the primary material, and much less resources are spent on remelting. Optimizing the loading of furnaces for the processing of waste aluminum profile material requires proper preparation of the material. The aluminum profile is less and less common in its pure form. Since aluminum has poor sound insulation and thermal conductivity characteristics, it is very often combined with carved or plastic. This improves the consumer properties of the product, but complicates processing. An aluminum profile with inserts cannot simply be pressed to increase density. In this case, for the processing of aluminum profile waste, we
Industrial shredders for all materials for sale in Vietnam are automated or semi-automated machines that process waste and materials before disposal or recycling. It used in several sectors, like landfills, cement plant, waste-to-enery plant, MSW sorting plant, paper mills and so on. AIShred industrial shredder, efficiently processes cardboard boxes, plastic packaging, wooden crates, glass, metal cans and mixed waste and reduces the volume of waste by up to 90%! AIShred shredders are strong, sturdy and resilient, but it is also very safe, easy to handle and clean! It is equipped with a gear motor, mobile knives in treated steel and a removable rack for optimal waste compaction and long machine life. Many adaptations are available. AIShred industrial shredder that can process a wide variety of materials commonly found in Vietnam including cardboard, paper, crates, boxes, aluminum cans, PET/HDPE, tin cans, polystyrene, glass and building materials. Our experts can help you choose the best industrial shredder
Batteries are currently the main electrical energy storage devices, consisting of packaging materials, electrolytes, anode and cathode materials. Batteries are widely used and there are many types, from the current popular Tesla cars to various electronic products, batteries are used everywhere. Because of this, waste batteries are eroding our environment, and many countries have begun to pay attention to the recycling of waste batteries. At present, the commonly used types of batteries include lead-acid batteries, nickel-cadmium batteries, nickel-hydrogen batteries, lithium-ion batteries, zinc-manganese batteries, alkaline manganese batteries, lithium batteries, etc. Recycling them can not only obtain common plastics, iron, but also precious metals such as lead, lithium battery, cobalt, nickel, cadmium and mercury are obtained. The battery recycling process includes two steps: shredding and sorting.Waste Battery ShreddingWaste batteries pass through a conveyor belt or a grabber into a device called a