Briquetting is a way to make use of biomass residues that would otherwise go to waste, and replace the use of wood and charcoal (often produced unsustainably) as well as fossil fuels, thus cutting greenhouse gas emissions.
Briquetting is a compaction technology that has been around for many years. Fines are pushed into the nip of two counter-rotating wheels using a screw or gravity feeder. High hydraulic pressure is applied and the rotating wheels compress the feed between the pockets to form briquettes. Unlike pelletization, briquetting does not always require a binder, but generally some amount of molasses, starch, or tar pitch is used. A traditional application for briquetting is the agglomeration of coal.
Most applications of briquetting in the iron and steel industry involve waste materials, such as mill scale and process dusts, sludges, and filter cakes . In the DR industry, a number of facilities briquette their hot DRI product to produce a higher-density product for safer shipping. This material is known as HBI (hot briquetted iron), as discussed in Section 1.2.3.
Briquetting machines, with dies and punches, driven by a single bullock, have been developed by the School of Applied Research in Maharashtra, India. They cost about US$ 2400 each. The machine is very sturdy but the problem is the limited maximum production 25 kg/hr and the price of the equipment.
The same school has also developed a briquetting machine with two plungers driven by a 3 horse powermotor. The maximum capacity is 100 kg/hr and the price about US$ 4000. However, the pressure on the briquettes is not very high and it is necessary either to use a binder or to handle the briquettes with great care.
GAKO-Spezialmaschenen in West Germany produces briquetting equipment that uses the piston extruder compacting method and produces good quality briquettes because of the high pressure although this results in higher prices and power consumption. A 150 kg/hr machine costs about US$ 12 900 and a 60 kg/hr machine about US$ 8800 and requires a power load of 8.5 kW.
T & P Intertrade Corporation Ltd in Thailand markets a press-screw system briquetter that heats the agro-waste before compression. This means that good briquettes can be produced without needing a binder and at lower pressure, resulting in cheaper equipment. Their Ecofumac has a capacity of about 150 kg/hr, needs a 15 hp motor and three 2000 watt heaters and costs about US$ 5850. The grinder needs a 5 hp motor. Unfortunately a lot of energy is used by the heaters and there have also been some problems with other components.
It can be seen, therefore, that even if equipment does exist, the problems are not totally solved. Either equipment is too expensive with little capacity and too high an energy use, or poor quality briquettes result. There is still a need for a medium-size briquetting machine that is inexpensive, easy to operate, repairable using local tools and commonsense, energy efficient, reliable and which can handle different types of raw material. The advantage of medium-sized equipment is that capital investment is low and mechanized drying and special storage space is not required. In addition it would be practical for use in villages and in places with small wood industries or small agro-industries like groundnut oil mills, sugar mills, saw mills and paper mills. The briquettes could be used locally in bakeries, brickworks, potteries, curing houses, breweries, drieries or simply for cooking.
Briquetting is like pelletising a process in which the raw material is compressed under high pressure, which causes the lignin in the wood or biomass to be liberated so that it binds the material into a firm briquette.
The most appropriate water content in the raw material for briquetting varies and depends on the raw material. However, the normal water content is between 6% and 16%. If the water content is over 16% the quality of the briquettes will be reduced, or the process will not be possible.
There are hydraulic presses for small capacities from 50 to 400kg/hour. The raw material is fed into the press by a time-controlled dosing screw, which means that it is the volume of the raw material and not the weight, which is controlled. Briquettes have a fairly good uniform length (square briquettes) and they are mainly used by domestic consumers.
Mechanical presses are available with capacities from 200kg/hour up to 1800kg/hour. Briquettes from these presses are normally round and short and they are used in heating plants for larger industries and for district heating plants. A mechanical press is built like an eccentric press. A constantly rotating eccentric connected to a press piston presses the raw material through a conic nozzle. The required counter pressure can be adjusted only by using a nozzle with a different conicity. A mechanical press receives raw material from a speed-controlled dosing screw. The speed of the dosing screw determines the production rate of the press. A change in the specific gravity of the raw material will change the hardness of the briquettes. A mechanical briquetting press will produce a long length of material a briquette string which, however, breaks into random lengths depending on the binding capacity of the raw material. A saw or cutter is used to cut the briquette string into briquettes of uniform length.
The briquette string pushed out of the press is very hot because of the friction in the nozzle. The quality of the briquettes depends mainly on the cooling and transport line mounted on the press. A cooling/transport line of at least 15m is recommended for wood briquettes. The longer the time a briquette remains in the cooling line the harder it will become. Cooling lines up to 50m long are common.
Biomass briquetting technology can compress some biomass raw materials, such as wood shavings, sawdust, crop straw, and other solid waste biomass fuel through pressurizing and heating. It is conducive to the transportation, storage and combustion and can largely improve the efficiency of combustion and fuel utilization. At present, there are three main types of solid shaping, including screw extrusion, piston punch, and roller forming.
Thermochemical conversion involves biomass structure degradation with oxygenic or anoxygenic atmosphere at high temperature . It includes three kinds of technology, namely biomass gasification, biomass pyrolysis, and direct liquefaction.
Biomass gasification is a chemical reaction process that reacts with gasifying agent (air, oxygen, and water) at high temperatures in gasifiers. The main problem of biomass gasification technology is that the tar obtained in the gasification of gas is difficult to purify, which has become the main factor restricting the biomass gasification technology.
Pyrolysis is a thermal process in which the organic polymer molecules in the biomass are quickly broken into short chain molecules, coke, bio-oil and noncondensable gas in the absence of oxygen or a small amount of oxygen under high temperatures. Biomass liquid fuel could provide an alternative to petroleum up to a certain extent. After some modification, industrial oil fired boilers and internal combustion engines can use bio-oil as fuel directly.
Burning biomass to obtain heat energy, as a direct utilization mode, has been more and more widely employed based on the mature experiences during development of fossil fuel power plants. When biomass is used as the boiler fuel, its thermal efficiency is close to the level of fossil fuels. Compared with fossil fuels, for example, coal, biomass fuel contains more hydrogen element, is more volatile, and has less carbon and sulfur content.
Bioconversion technology of biomass refers to the process by which microorganisms produce high-grade energy through biochemical action with agricultural and forestry wastes. Anaerobic fermentation and ethanol fermentation are the two main conversion types. With the help of anaerobic bacteria, organic matter can be converted to combustible gas, for example, methane under a certain temperature, humidity, pH, and anoxygenic conditions. The ethanol is produced by microzyme with the carbohydrate hydrolyzed by enzymes.
Renewed interest in briquetting coal has arisen because of (i) the increasing amounts of fine coal being generated in mining and preparation which are stockpiled or disposed of in tailings dams and lead to uneconomic land use and environmental problems; (ii) the need for easily handled and convenient coal products; and (iii) the demand for smokeless solid fuels.
Briquette quality depends on composition (type of coal and binder), particle sizes and processing conditions. In this study various data are presented on the influences of such factors on mechanical strength and water resistance of briquettes formed from high rank coals using a molasses/lime binder alone and also including bagasse. These data relate to Hardgrove grindability index (HGI), coal size, moisture and curing time.
White Energy developed the BCB technology at pilot scale in Australia, after initial work by CSIRO. In partnership with Bayan Group, White Energy formed PT Kaltim Supa Coal, and constructed a commercial scale 1 Mtpa plant at Tabang in East Kalimantan. The BCB process takes 4200 kcal/kg GAR feed and produces a 6100 GAR product. Its difference from Kobelcos UBC process is that BCB does not use any binder to reconstitute the dried product.
This project has been terminated due to commercial differences between the partners. The financial model used a sub-20 coal price delivered from mine mouth to plant. Bayan Group changed the price to follow the Indonesian Reference Price which more than doubles the feedstock cost. The parties are in negotiations to settle the dispute (White Energy, 2011).
Generally, briquette manufacture (briquetting) involves the collection of combustible materials that are not usable as such because of their low density, and compressing them into a solid fuel product of any convenient shape that can be burned like wood or charcoal. Thus the material is compressed to form a product of higher bulk density, lower moisture content, and uniform size, shape, and material properties. Briquettes are easier to package and store, cheaper to transport, more convenient to use, and their burning characteristics are better than those of the original organic waste material.
The raw material of a briquette must bind during compression; otherwise, when the briquette is removed from the mold, it will crumble. Improved cohesion can be obtained with a binder but also without, since under high temperature and pressure, some materials such as wood bind naturally. A binder must not cause smoke or gummy deposits, while the creation of excess dust must also be avoided. Two different sorts of binders may be employed. Combustible binders are prepared from natural or synthetic resins, animal manure or treated, dewatered sewage sludge. Noncombustible binders include clay, cement, and other adhesive minerals. Although combustible binders are preferable, noncombustible binders may be suitable if used in sufficiently low concentrations. For example, if organic waste is mixed with too much clay, the briquettes will not easily ignite or burn uniformly. Suitable binders include starch (5%10% w/w) or molasses (15%25% w/w) although their use can prove expensive. It is important to identify additional, inexpensive materials to serve as briquette binders in Kenya and their optimum concentrations. The exact method of preparation depends upon the material being briquetted as illustrated in the following three cases of compressing sugar bagasse, sawdust, and urban waste into cooking briquettes.
Rural villages in developing countries are connected to the drinking water supply without a sewer system. Other places in urban and semi-urban communities have no sewage treatment networks. Instead under each dwelling there is a constructed septic tank where sewage is collected or connected directly to the nearest canal through a PVC pipe. Some dwellings pump their sewage from the septic tank to a sewer car once or twice a week and dump it elsewhere, usually at a remote location.
In general, a huge amount of sewage and solid waste, both municipal and agricultural are generated in these villages. Because of the lack of a sewer system and municipal solid waste collection system, sewage as well as garbage are discharged in the water canals. This and the burning of agricultural waste in the field cause soil, water, and air pollution as well as health problems. Some canals are used for irrigation, other canals are used as a source of water for drinking.
Rural communities have had agricultural traditions for thousands of years and future plans for expansion. In order to combine the old traditions with modern technologies to achieve sustainable development, waste should be treated as a byproduct. The main problems facing rural areas nowadays are agricultural wastes, sewage, and municipal solid waste. These represent a crisis for sustainable development in rural villages and to the national economy. However, few studies have been conducted on the utilization of agricultural waste for composting and/or animal fodder but none of them has been implemented in a sustainable form. This chapter combines all major sources of pollution/wastes generated in rural areas in one complex called an eco-rural park (ERP) or environmentally balanced rural waste complex (EBRWC) to produce fertilizer, energy, animal fodder, and other products according to market and need.
The idea of an integrated complex is to combine the above-mentioned technologies under one roof, a facility that will help utilize each agricultural waste with the most suitable technique that suits the characteristics and shape of the waste. The main point of this complex is the distribution of the wastes among the basic four techniques animal fodder, briquetting, biogas, and composting (ABBC) as this can vary from one village to another according to the need and market for the outputs. The complex is flexible and the amount of the outputs from soil conditioner, briquettes, and animal food can be controlled each year according to the resources and the need.
Based on the above criteria, an environmentally balanced rural waste complex (EBRWC) will combine all wastes generated in rural areas in one complex to produce valuable products such as briquettes, biogas, composting, animal fodder, and other recycling techniques for solid wastes, depending upon the availability of wastes and according to demand and need.
The flow diagram describing the flow of materials from waste to product is shown in Figure 7.2. First, the agricultural waste is collected, shredded, and stored to guarantee continuous supply of waste into the complex. Then according to the desired outputs the agricultural wastes are distributed among the basic four techniques. The biogas should be designed to produce enough electrical energy for the complex; the secondary output of biogas (slurry) is mixed with the composting pile to add some humidity and improve the quality of the compost. And finally briquettes, animal feed, and compost are main outputs of the complex.
The environmentally balanced rural waste complex (EBRWC) shown in Figure 7.3 can be defined as a selective collection of compatible activities located together in one area (complex) to minimize (or prevent) environmental impacts and treatment cost for sewage, municipal solid waste, and agricultural waste. A typical example of such a rural waste complex consists of several compatible techniques such as animal fodder, briquetting, anaerobic digestion (biogas), composting, and other recycling techniques for solid wastes located together within the rural waste complex. Thus, EBRWC is a self-sustained unit that draws all its inputs from within the rural wastes achieving zero waste and pollution. However, some emission might be released to the atmosphere, but this emission level would be significantly much less than the emission from the raw waste coming to the rural waste complex.
The core of EBRWC is material recovery through recycling. A typical rural waste complex would utilize all agricultural waste, sewage, and municipal solid waste as sources of energy, fertilizer, animal fodder, and other products depending on the constituent of municipal solid waste. In other words, all the unusable wastes will be used as a raw material for a valuable product according to demand and need within the rural waste complex. Thus a rural waste complex will consist of a number of such compatible activities, the waste of one being used as raw materials for the others generating no external waste from the complex. This technique will produce different products as well as keep the rural environment free of pollution from the agricultural waste, sewage, and solid waste. The main advantage of the complex is to help the national economy for sustainable development in rural areas.
A collection and transportation system is the most important component in the integrated complex of agricultural waste and sewage utilization. This is due to the uneven distribution of agricultural waste that depends on the harvesting season. This waste needs to be collected, shredded, and stored in the shortest period of time to avoid occupying agricultural lands, and the spread of disease and fire.
Sewage does not cause transportation problems as it is transported through underground pipes from the main sewage pipe of the village to the system. Sewage can also be transported by sewage car which is most common in rural areas since pipelines may prove expensive.
Household municipal solid waste represents a crisis for rural areas where people dump their waste in the water canals causing water pollution or burn it on the street causing air pollution. The household municipal solid waste consists of organic materials, paper and cardboard, plastic waste, tin cans, aluminum cans, textile, glass, and dust. The quantity changes from one rural community to another. It is very difficult to establish recycling facilities in rural areas where the quantities are small and change from one place to another. It is recommended to have a transfer station(s) located in each community to separate the wastes, and compact and transfer them to the nearest recycling center as explained in Chapter 5. The transfer station consists of a sorting conveyer belt that sorts all valuable wastes from the organic waste, which is then compacted by a hydraulic press. The collected organic waste can be mixed with other rural waste for composting or biogas as explained above.
The outputs of the EBRWC are valuable and needed goods. EBRWC is flexible and can be adjusted with proper calculations to suit every village; moreover inputs and outputs from the complex can be adjusted every year according to the main crops cultivated in the village, which usually varies from year to year. The key element to the success of this solution lies in the integration of these ABBC technologies to guarantee that each type of waste is most efficiently utilized.
The four corner stone technologies for agricultural waste are animal fodder, briquetting, biogas, and composting (ABBC technologies). These technologies can be developed based on demand and need. In principal three agricultural waste recycling techniques can be selected to be the most suitable for the developing communities. These are animal fodder and energy in a solid form (briquetting) or gaseous form (biogas) and composting for land reclamation. There are some other techniques, which might be suitable for different countries according to the needs such as gasification, fiber boards, pyrolysis, etc. These techniques might be integrated into a complex that combine them altogether to allow 100% recycling for the agricultural waste. Such a complex can be part of the infrastructure of every village or community. Not only does it allow to get rid of the harms of the current practice of agricultural waste, but also of great economical benefit.
The amount of agricultural waste varies from one country to another according to type of crops and farming land. These waste occupies the agricultural lands for days and weeks until the simple farmers get rid of these waste by either burning it in the fields or storing it in the roofs of their houses; the thing that affects the environment and allows fire villages and spread of diseases. The main crops responsible for most of these agricultural wastes are the rice, wheat, cotton, corn, etc. These crops were studied and three agricultural waste recycling techniques were set to be the most suitable for these crops. The first technology is animal fodder that allows the transformation of agricultural waste into animal food by increasing the digestibility and the nutritional value. The second technology is energy, which converts agricultural wastes into energy in a solid form (briquetting) or gaseous form (biogas). The briquetting technology that allows the transformation of agricultural waste into briquettes that can be used as useful fuel for local or industrial stoves. The biogas technology can combine both agricultural waste and municipal waste water (sewage) in producing biogas that can be used in generating electricity, as well as organic fertilizer. The last technology is composting, that uses aerobic fermentation methods to change agricultural waste or any organic waste into soil conditioner. The soil conditioner can be converted into organic fertilizer by adding natural rocks to control N: P: K ratio, as explained before. Agricultural waste varies in type, characteristics and shape, thus for each type of agricultural waste there is the most suitable technique as shown in Figure 13.28.
A complex combining these four techniques is very important to guarantee each waste has been most efficiently utilized in producing beneficial outputs like compost, animal food, briquettes and electricity. Having this complex will not only help the utilization of agricultural waste, it will help solving the sewage problem as well that face most of the developing countries, as a certain percentage of the sewage will be used in the biogas production and composting techniques to adjust carbon to nitrogen ratio. An efficient collection system should be well designed to collect the agricultural waste from the lands to the complex in the least time possible to avoid having these wastes occupying agricultural land. These wastes are to be shredded and stored in the complex to maintain continuous supply of agricultural waste to the system and in turns continuous outputs.
Fote briquetting plants or briquette plants have a wide practical application, and it can produce briquetting and agglomeration from various materials and powders, such as lime powder, cryolite, aluminum oxide, chemical fertilizer, metal magnesium, bauxite, aluminum ash and so on; and non-ferrous metal industry powder, accessories, the powder of refractory industry and those materials with high additional value are more suitable for the use of briquetting plant machine.
Fote briquettes plant for sale is aim to reduce the dust pollution, control volume, waste recycling and convenient transportation. In the steel mill, lime plants, metallurgy, refractory material and metal magnesium plant, pressing calcined powder into balls is also of wide use.
1. Mineral powder/coal powder: powder raw materials. 2. Feeder: control the capacity of the whole production line, ensure the even feeding and the uniform feeding for the forming machine. 3. Liquid mixing tank: to mix the products thoroughly so as to achieve the actual mixing effect. Certain equipment shape can be made according to the client's requirements. 4. Agitator: make sure the materials can be fully stirred with adhesive, control the capacity of the whole production line and ensure the uniform feeding for the forming machine. 5. Ball press machine: press the materials that processed and sealed into balls, ensure the strength and density of the balls made from the mineral powder, namely obtain the finished products. 6. Vertical dryer: as the most ideal drying equipment, it makes use of the characteristics of the mineral powder/pulverized coal etc. and its own gravity and adopts cold winds to dry the pellets to the standard for the blast furnace smelting.
Thanks to the decades of experience for the production of briquetting plant machine, our company has summarized and designed briquetting plants and auxiliary equipment specially for metallurgical industry to produce hard cold-pressed pellets. Briquetting plants have the advantages of strong adaptability, high strength, wear-resisting and durability. Fote is one of the most famous briquetting plant manufacturers and briquetting plant suppliers, provides production line of the single operation and complete set. Leave us a message for more product information and price list?
Along with the gradual development of manufacturing level and market competition, we more and more focus on the improvement of management level.
5 Convenient for storage and transportation: Briquettes are convenient for storage with reduced volume in the shape of a square, spherical, elliptic, egg, pillow, etc., therefore their transportation costs can be reduced.
4 Metals and metal alloys: iron powders, aluminum powders, magnesium powders, copper powders, lead powders, zinc powders, tungsten powders, sulfur powders, chromium powders, cobalt powders, silicon powders, nickel powders, oxide scale, etc.
Boiler industry. It is widely used for civil and household cooking (including BBQ), power supply and heating in factories, hotels, hospitals, food processing plants, schools, bath centers, hotels, restaurants and other industries.
To ensure the normal operation of the briquette press machine, the power supply should not be lower than the nominal input voltage of the briquetting machine. When the nominal value is 24VAC, the voltage fluctuation should not exceed 25%.
Therefore, users who configure briquette making equipment should consider and perform comprehensive calculations to reduce production and investment costs while ensuring product quality and efficiency.
The material enters the hopper of the briquette machine uniformly from the storage bin through the quantitative equipment and is adjusted by the adjusting gate on the hopper, so that the material enters the middle of the roller evenly.
The unit pressure increases from small to large until the center of the rollers, and the unit pressure of the moulding reaches a large value. As the rollers continue to rotate, the molding pressure continues to decrease until the material enters the off-ball state and falls out.
65 manganese alloy, with relatively low cost, is commonly used for casting roller skins. The hardness of the roller skin is not too high, so it is not wear-resistant. It is suitable for pressing fine materials such as coal powder and clay.
92 chromium-molybdenum, with relatively high cost, is commonly used for forging roller skins. The hardness of the roller skins, which can reach above HRC62, is also relatively high. It is suitable for pressing rough materials such as iron powder and metal ore powder.
The medium and high pressure briquette making machine: They need to use type 2 bearings, such as 22318, because of high load. This type of bearing not only has a self-aligning function, but also can carry a larger load, but its price is higher than that of a flat bearing.
The large-scale high-pressure dry powder briquette machine: It has a relatively large load during operation, so type 3 bearings, such as 352144 are used. This type of bearing belongs to the double row cylindrical roller bearing that has good stability, compression resistance and durability, but its price is even more expensive.
Kiplitany, a Kenyan briquetting seller, has bought our charcoal briquette press machine. He said that the charcoal briquette produced by Fote briquette machine was of excellent quality and was popular with customers, including restaurants, hotels, schools and so on.
Israel from Nigeria is a purchasing manager for a metal processing company. After visiting our factory, he purchased Fote briquette making machine. "Fote provides us with on-site installation, staff training and excellent service.
Fote has become an advanced enterprise in the briquetting industry because the R&D team has undergone continuous theoretical calculations and machine tests to adopt hydraulic pressure, spiral pressure and other technical methods.
The supplier Fote has been engaged in briquette making equipment for many years. With rich experience in the briquette making machine production and sales to India, Kenya and other countries, Fote briquetting machine for sale is deeply loved by the vast majority of users.
At present, Fote briquetting equipment for slae has been used in more than 200 countries and regions including South Africa, India, Kenya, Indonesia, Nigeria, Tanzania, Uganda, Ghana, the United States.
Through continuous improvement and innovation of the equipment, Fote produces briquette making machine with better quality and lower price. We also provide staff training and accessories. Welcome to visit our factory.
As a leading mining machinery manufacturer and exporter in China, we are always here to provide you with high quality products and better services. Welcome to contact us through one of the following ways or visit our company and factories.
Based on the high quality and complete after-sales service, our products have been exported to more than 120 countries and regions. Fote Machinery has been the choice of more than 200,000 customers.
HE briquetting presses enable easy swarf handling. The need of large space for storing swarf boxes is reduced to a minimum.Aluminium briquettes are of high density, suitable for direct charging into standard reverb furnaces.Metal recovery during remelting is excellent, similar to that of ingots. Metal loss is as low as 1 %.
Fibre hemp and energy sunflower are potential energy crops for production of solid biomass as renewable energy. The current study estimated (i) the lignin content of fibre hemp and energy sunflower plants grown on different nitrogen treatments and (ii) the quality of the briquettes made from different plant types of fibre hemp (i.e. monoecious and dioecious), energy sunflower and the combination of fibre hemp and energy sunflower. The monoecious and dioecious fibre hemp cultivars (Chameleon, Finola and Santhica-27, USO-31, respectively) and the energy sunflower cultivar Wielkopolski were grown in the experimental field in 20082010 on Stagnic Luvisol soil. The plants were grown on N treatments of N0, mineral nitrogen (100kgNha1), cattle slurry (100kgNha1), sewage sludge (100kgNha1) and vetch (100kgNha1). Calorific values (16.617.4MJkg1) of briquettes pressed from different materials did not differ significantly and had relatively low sulphur (<0.05%) and chlorine content (0.030.37%). Briquettes with higher compactness were made from the sunflower and the dioecious hemp. Dioecious hemp had significantly higher lignin content. The dioecious hemp needs lower GDD values for maturating, its stems lignin content was higher than of monoecious hemp by harvest time and therefore this plant type is more suitable for briquetting in Nordic climatic conditions. Comparison of the different N treatments indicated that application of sewage sludge decreased the emergence and density of the fibre hemp plants and the lignin content per kg of DM.
The lignin content of hemp was significantly influenced by nitrogen treatment and plant type. Dioecious hemp matured at lower Growing Degree Days value, had higher lignin content and is more suitable briquetting material in Nordic conditions than monoecious hemp. The application of waste-water sludge decreased the emergence and density of the fibre hemp plants. Briquettes without major fractures and with high compactness were made from the sunflower and the dioecious hemp.
Single, Twin, and Drills Plant more acres...Up to 3 times more. Plant 12 to 16 acres between fills compared with 3 to 4 acres with other planters. Our six row twin plants the same acreage in a day as a 12 row ...
19937X (K) Row Configuration:16 Frame Type:Front Fold Hitch Type:2 Point Hitch Row Spacing:30 Keaton Seed Firmers:Yes Drive Type:Hydraulic Fertilizer:Liquid Display and Monitoring:MonitorOnly Dealer Disclaimer: H...
132536 (W) Row Configuration:12 23 Frame Type:Center Pivot Hitch Type:Drawbar Row Spacing:15 30 Drive Type:Hydraulic Central Fill:Yes Display and Monitoring:Neither Dealer Disclaimer: H & R Agri-Power used invent...
130953 (S) Row Configuration:12 Frame Type:Stack Fold Hitch Type:Lift Type Row Spacing:38 Row Cleaners:Fixed Drive Type:Mechanical Display and Monitoring:Neither Dealer Disclaimer: H & R Agri-Power used inventory...
159289 (A) Row Configuration:12 Frame Type:Front Fold Hitch Type:Drawbar Row Spacing:30 Number of No-Till Coulters:12 Keaton Seed Firmers:Yes Drive Type:Mechanical Display and Monitoring:MonitorOnly Dealer Discla...
132895 (S) Row Configuration:12 Frame Type:Stack Fold Hitch Type:Drawbar Row Spacing:30 Drive Type:Mechanical Central Fill:Yes Display and Monitoring:MonitorOnly Dealer Disclaimer: H & R Agri-Power used inventory...
19977X (G) Row Configuration:12 23 Frame Type:Center Pivot Hitch Type:Drawbar Row Spacing:15 30 Number of No-Till Coulters:23 Keaton Seed Firmers:Yes Drive Type:Hydraulic Central Fill:Yes Display and Monitoring:N...
20030X (U) Row Configuration:12 23 Frame Type:Center Pivot Hitch Type:Drawbar Row Spacing:15 30 Number of No-Till Coulters:23 Keaton Seed Firmers:Yes Drive Type:Mechanical Central Fill:Yes Display and Monitoring:...
80496 (L) Row Configuration:12 Frame Type:Stack Fold Hitch Type:Lift Type Row Spacing:Other Row Cleaners:Floating Drive Type:Electric Central Fill:Yes Display and Monitoring:Neither Dealer Disclaimer: H & R Agri-...
19868X (L) Row Configuration:12 Frame Type:Stack Fold Hitch Type:Lift Type Row Spacing:38 Row Cleaners:Floating Drive Type:Hydraulic Display and Monitoring:Neither Dealer Disclaimer: H & R Agri-Power used invento...
130471 (T) Row Configuration:12 Frame Type:Stack Fold Hitch Type:2 Point Hitch Row Spacing:38 Drive Type:Mechanical Display and Monitoring:DisplayAndMonitor Display Model:Ag leader Dealer Disclaimer: H & R Agri-P...
80665 (L) Row Configuration:12 Frame Type:Stack Fold Hitch Type:2 Point Hitch Row Spacing:Other Row Cleaners:Floating Drive Type:Electric Display and Monitoring:DisplayAndMonitor Display Model:Ag Leader Dealer Di...
92735 (H) Row Configuration:12 Frame Type:Front Fold Hitch Type:Drawbar Row Spacing:30 Row Cleaners:Fixed Drive Type:Mechanical Display and Monitoring:MonitorOnly Dealer Disclaimer: H & R Agri-Power used inventor...
Gujarat is one of developing state and also well known for its agricultural land where tones of agro-forestry waste is generated every year such asGroundnut shell, Castor Waste, Saw Dust, Cotton stalkswhich can be use forBriquetting Press, briquette press, briquette machine. To explore our Business in Gujarat by creating awareness among society have proved successful for us when by constant struggle and efforts we sold 400-450 Briquetting Machine, Briquetting Plant, Biomass Dryerwith successful customer satisfaction.
Government have started making people conscious about renewable source of energy through which we can create clean and eco friendly state to live for applying the same now a days people have started using briquetting press, white coal machine, Briquetting plant, briquetting machinedue to which Waste Management is undertaken.
The usage of Briquettes has many benefits such as no pollution, alternative source of Biofuel even with Biomass Briquetting plant we go forBinder Less Technologyso it is beneficial to clients. In the state like Gujarat the business of manufacturingBriquetteshas proved to be highly profitable among existing clients. The ground-breaking efforts for creating awareness among farmers with the help of Krushi Mela, other Agricultural fares through which even they can seek opportunities for them be selling the Agro-forestry Waste toBriquette Manufacturers.
In Gujarat State we have successfully achieved our Brand Name among people by supplying best Quality briquette making machine, white coal making Machine, sawdust making machine, wood chipper, biomass dryer, municipal solid waste drying system, Rotary Dryer, Biomass Crusher Grinder Machine.
I am official agent of Briquetting since 2008 .sold more than 70 Briquetting plants in Vietnam. Best quality Briquetting Machine. Fully satisfied with the products. Timely delivery of spare parts. Frequent visit of Director to guide us in complete process for each installations.
We are a proud customer of Briquetting, because we got the latest technology machines with easy to operate control panels with sensor system buzzes when necessary with fully automatic system. They sent well qualified technician to our site who guided us in each and every step of installation, maintenance of the machine. Happy to choose Briquetting.
Good technical support, Good quality machines, easy to operate the plant because they are providing operating manuals, DVDs and all the needed stuff. And also taking regular follow-ups for services or any other technical assistance.
Since 3 years I am running the Briquetting plant & Dryer successfully & getting very good technical support from the company. Got complete guidance from start to end about the set-up. Good market in Kenya so planning to install another machine in near future.
Agro Husk Briquetting Plant solutions offered supports production of biomass briquettes that can be used as bio-fuel substitute to coal. Further, these are also suitable to be used for heating of industrial boilers for producing electricity from steam. Some of the features and benefits of these plants include can be combined with coal for creating heat supplied to boiler this reducing carbon dioxide emissions, pants can be used for producing briquettes for purposes like electricity generation, heat, and cooking fuel, pant can use a wide range of raw materials like rice husk, bagasse, ground nut shells, municipal solid waste and others.
Briquetting is a way to convert any loose biomass or agro forestry waste like Wood Chips, Sugarcane Bagasse, Ground nut shell, etc. into high density solid blocks which can be further use as fuel. Coffee Husks Briquetting Plant is best raw material for briquetting as Coffee Husk is having less moisture content and size of the Coffee Husk is below 20mm so it is best for Coffee Husk Briquetting.
Wood Chips Briquetting Plant is a way to convert any loose biomass or agro forestry waste like Wood Chips, Sugarcane Bagasse, Ground nut shell, etc. into high density solid blocks which can be further use as fuel.
We offer our client an excellent quality range of Groundnut Shell Briquetting Plant. It is widely known for its durability and quality. It can be availed at industrial leading price. It is extensively used for planting requirements and act as natural organic medium. It is a source of energy and avoid adding fossil carbon to the atmosphere.
Known for their superior build quality, the Fuel Briquetting Plant we offer are manufactured by a team of professionals with years of experience in the domain. The plant has a high production capacity and requires lesser power to operate.
We are counted amidst some of the leading organizations of our domain that are involved in offering Renewable Energy Briquette Plant. Under the supervision of our highly diligent professionals, offered machine is manufactured using qualitative metallic and non-metallic components, sourced from the well-established vendors. Owing to its high efficiency, offered machine is widely used for producing Eco-friendly briquettes within least operation cost. To suit to the diversified requirements of our customers, we provide this Wood waste briquette machine in different models and production capacities.
We have acquired a prestigious niche in industry as a trusted firm, which is engaged in fabricating Renewable Briquetting Plant. It is fabricated by our diligent professionals using qualitative metallic and non-metallic components incorporating sophisticated technology. Owing to its high operational accuracy, offered plant is utilized for producing briquettes using agro waste. We have employed experienced quality controllers, who conduct random quality tests during the fabrication of this plant to ensure flawlessness. Our Renewable Briquetting Plant is acclaimed by clients for its excellent performance, low maintenance, robust construction and prolonged functional life.
Certain raw materials containing moisture content beyond 45% (wet basis), need to be treated for moisture evaporation to bring the moisture content to acceptable limit of 15%. For suspension drying of fibrous materials like bagasse, jute, coir pith etc., turbo dryer is required.
The system consists of screw conveyor, vibrating screen, feeding hopper vane guide, conveying line including insulated drying column and conveying line through which wet or moist material is conveyed with hot air. A powerful low pressure open wheel centrifugal fan assures significant resilience time for removal of excess moistures. Material is conveyed to cyclone and discharged through air tap duct.
We are engaged in making Briquette Dryer Unit made from quality raw material as per desired requirement. Briquette dryer unit consist of Cyclone, Screw Conveyor Blower, Pneumatic fan and Oven. This dryer unit is used for biomass briquetting with additional moisture content ranging between 8% to 15 %.
Our company is one of the efficient manufacturers of Pellet Making plant either used as a bio-fuel or animal feed. It is a compression device used by the grinding, increasing the frequency, shaping of mechanized production equipment. We supply a full line of Pellet Making Briquetting Plant to our national and international customers.
Drying is very essential for the proper preparation of materials prior to their briquetting. In order to manufacture top quality briquettes with high density, it is very imperative to control the moisture content of raw materials. This system is used to dry products in varied mining, agriculture, fertilizer, metallurgy and building materials industry