When starting a tyre pyrolysis plant business to make money, you must have to consider the various costs of tyre pyrolysis plant. Generally speaking, the waste tyre pyrolysis plant cost is mainly determined by several factors. Such as the pyrolysis process, output, overall technology, pyrolysis reactor, condensers and so on.
The pyrolysis technique of the equipment that you just purchase will influence its cost. When buying your pyrolysis equipment, find what it lets you do and exactly how it will it. Most manufacturers of pyrolysis equipment have sufficient data regarding the processes of their equipment and how the gear handles the pyrolysis process. Find out how this influences the cost of the apparatus.
The processing capacity also affects waste tyre pyrolysis plant cost. Pyrolysis equipment with higher capacity costs more. However, high capacity pyrolysis devices are more cost-effective since it catches the interest of the requirements more customers of a waste tyre pyrolysis plant. Therefore, ask about the output capacity with the pyrolysis equipment that you would like to buy. Ideally, the tonnage output that you might want from your waste tyre pyrolysis plant should guide you when choosing the device to get.
We now have utilized by the tire pyrolysis plant will influence its price. Pyrolysis equipment that uses a progressive technology to make oil energy from waste tire, especially green technology is more epensive. Such equipment will generate more renewable energy without causing polluting the environment. Thus, tyre pyrolysis equipment price is usually higher if your devices are built in ways that enables it to recycle waste tires without producing environmental pollutants.
The reactor is the chamber where the pyrolysis process occurs. It is one of the major elements that influence the worth of pyrolysis equipment. Waste tyre pyrolysis machine cost is largely driven by the design, output and automation in the reactor. An even more automated reactor increases the expense of the pyrolysis equipment. Additionally, if a reactor is made in a manner that enables the gear to process waste tires better, zinc heightens the total cost from the equipment.
Condensers are used in condensing pyro-gas the equipment produces. Pyro-gas has methane utilized being a way to obtain heating energy, so that it is widely used as being a product with the tyre pyrolysis process. Nevertheless, for methane to be a usable form, it ought to be condensed into liquid immediately. Waste tyre pyrolysis plant expense is increased by the quantity of condensers that any pyrolysis equipment has. The quantity of the condensers that pyrolysis equipment needs depends upon how big its reactor.
Waste tires pyrolysis is often a thermal decomposition way for waste tires to generate oil energy. This technology was used since the early 1970s. However, it’s got undergone development in relation to its its usage. Those with entrepreneurial spirit and want to venture into this industry face challenges with regards to the price of starting tyre pyrolysis plants. Acquiring tire pyrolysis equipment is among the major challenges as a result of expense of this equipment. Nevertheless, with the right equipment creating an efficient and profitable tyre pyrolysis plant becomes easier. By considering factors that influence waste tire pyrolysis machine cost, it is simple to pick the right equipment for starting your tyre pyrolysis plant.
(1) For the continuous system, the feeding of the raw materials and discharging of slag are both automatic, while for the batching system, the two processes are both manual.
(2) For the continuous system, the feeding hole is very small, so it needs shredder to cut the tyres into small pieces (30-50 mm), while the batching system does not need the pretreatment device.
(3) The continuous system can work continuously without a stop, while for the batching system, the reactor must be cooled before the second batch.
|Daily capacity||6 MT||10 MT||20 MT||30MT,40MT,50MT|
|Raw material||Waste tires,rubber,plastic,oil sludge,medical waste|
|Working method||Batch||Semi-Continuous||Fully continuous|
|Operating pressure||Constant pressure|
|Reactor rotate speed||0.4 turn/minute||Not rotary type|
|Total power||24 kw/h||30 kw/h||54 kw/h||53.6,62,84(kw/h)|
|Reactor size(m)||D2.2*L5.1||D2.8*L6.2||D2.8 *L7.1||L12.5*W2.2*H2.5|
|Space (L*W*H)||20*10*10 m||25*15*10 m||25*15*10 m||20*15*10m,33*15*10m|