Discover the most efficient ways to use sawdust for woodworking and other purposes. Learn methods, strategies, and inventive applications for sawdust to get the most out of this adaptable substance.

15 Ways Pellet Machine Manufacturers Can Generate More Revenue

The demand for eco-friendly and efficient fuel alternatives is driving a surge in the popularity of pellet fuel. Pellet Machine Manufacturers play a crucial role in this industry by providing the equipment needed to convert biomass materials like agricultural waste into compact, high-burning fuel pellets. As the market expands, manufacturers are constantly seeking ways to generate more revenue and stay ahead of the competition. Here are 15 effective strategies to consider:

1. Expand Your Pellet Machine Product Lines:

Don't limit yourself to a single type of Pellet Machine. Offer a variety of sizes and capacities to cater to different customer needs. Small-scale farmers might require a more compact and affordable machine, while larger industrial operations might need high-capacity models for bulk production. Providing a diverse product portfolio allows you to capture a wider customer base.

2. Focus on Innovation and Efficiency:

The pellet making industry is constantly evolving. Invest in research and development to create new and improved Pellet Machine models. Focus on features that enhance efficiency, such as reduced energy consumption or increased production capacity. Develop unique functionalities that set your machines apart from the competition.

3. Prioritize After-Sales Support and Customer Service:

Selling a Pellet Machine is just the beginning of a successful customer relationship. Offering exceptional after-sales support builds customer loyalty and encourages repeat business. Provide readily available maintenance services, spare parts, and technical assistance to ensure customers can keep their machines running smoothly. Prioritize prompt and efficient customer service to address any questions or concerns effectively.

4. Target New Markets with Growing Demand:

Look beyond your local market. Explore international regions experiencing a rise in pellet production. Becoming a Pellet Machine Supplier and Exporter can significantly expand your customer base. Research international regulations and certifications required for exporting your machines. Partnering with established distributors in these regions can facilitate efficient sales and distribution.

5. Offer Financing Options to Make Machines More Accessible:

High-quality Pellet Machines can be a significant investment. Partner with financial institutions to provide loan options for your customers. This makes purchasing your machines more accessible, especially for smaller businesses or those just starting out. Flexible financing options can remove a barrier to entry and encourage new customers to invest in your equipment.

6. Utilize Digital Marketing Strategies for Wider Reach:

In today's digital age, online presence is crucial. Invest in search engine optimization (SEO) to ensure your website ranks high when people search for "Pellet Machine Manufacturers" or related keywords. Utilize online advertising platforms to reach a targeted audience. Develop informative content that educates potential customers about the benefits of pellet production and the advantages of your specific Pellet Machines. Utilize social media platforms to showcase your products, share industry news, and engage with potential customers.

7. Participate in Industry Trade Shows and Events:

Trade shows and industry events provide excellent opportunities to showcase your Pellet Machines to a wider audience. Connect with potential customers, network with industry professionals, and build brand awareness. Demonstrations at these events can visually highlight the features and benefits of your machines, making a lasting impression on attendees.

8. Develop Strong Distribution Networks for Efficient Delivery:

Partner with reliable distributors across different regions. This ensures efficient delivery of your Pellet Machines to customers nationwide or even internationally, depending on your target markets. Effective distribution networks minimize delivery times and customer frustration, leading to a smoother buying experience.

9. Offer Training and Support to Empower Your Customers:

Equipping your customers with the knowledge to operate and maintain their Pellet Machines effectively is vital. Develop training programs or educational resources that teach them proper operation, routine maintenance procedures, and troubleshooting techniques. This empowers your customers and reduces the chances of machine malfunctions or downtime, fostering a positive long-term relationship.

10. Focus on Customer Service to Build Trust and Loyalty:

Prioritize exceptional customer service throughout the entire buying journey. From initial inquiries to after-sales support, ensure prompt and professional communication. Address customer concerns effectively and offer solutions to any problems they might encounter. Building trust through excellent customer service encourages repeat business and positive word-of-mouth marketing.

11. Consider Offering Complementary Biomass Processing Products:

Many companies in the pellet making industry look beyond just Pellet Machines. Keyul Enterprise, for example, offers a range of complementary products such as Wood Crusher Machines and Chaff Cutter Machines. These machines play a vital role in preparing raw materials for pellet production. Offering a complete biomass processing solution can be attractive to customers who want a one-stop shop for their equipment needs. Similarly, consider including related products like Oil Press Machines and Oil Filter Manufacturers if your company manufactures them.

12. Highlight the Eco-Friendly Aspects of Your Pellet Machines:

With growing environmental concerns, sustainability is a major selling point. Emphasize the eco-friendly nature of pellet production. Pellet Machines convert waste materials like agricultural residue into clean-burning fuel, reducing reliance on fossil fuels. Promote your machines as a sustainable solution for energy generation, appealing to customers who prioritize environmentally conscious choices.

13. Offer Customization Options for Specific Needs:

Not every customer requires a one-size-fits-all solution. Provide the ability to customize Pellet Machines to meet specific needs. This could involve options for different pellet sizes, production capacities, or even material handling features. Customization demonstrates your commitment to catering to individual customer requirements and can be a deciding factor in the purchasing decision.

14. Host Webinars or Online Events to Educate and Engage:

The internet provides powerful tools for customer education and engagement. Host webinars or online events where you share industry insights and educate potential customers about the benefits of pellet production. Demonstrate the capabilities of your Pellet Machines and address common questions or concerns. Webinars can be a cost-effective way to reach a wide audience and generate leads.

15. Conduct Customer Satisfaction Surveys for Continuous Improvement:

Customer feedback is invaluable for growth. Regularly gather feedback through customer satisfaction surveys. This allows you to identify areas where you can improve your products, services, or overall customer experience. Addressing customer concerns and implementing their suggestions demonstrates that you value their feedback and are committed to continuous improvement. This fosters loyalty and encourages repeat business.

Conclusion:

The pellet making industry presents exciting opportunities for Pellet Machine Manufacturers. By implementing these 15 revenue-boosting strategies, you can expand your customer base, increase sales, and achieve long-term success. Focus on innovation, prioritize customer service, and continuously adapt to the evolving market demands. Remember, a commitment to after-sales support, offering complementary biomass processing equipment like those from Keyul Enterprise (Wood Crusher Machines, Chaff Cutter Machines, etc.), and a focus on sustainability can significantly enhance your competitive edge. By staying ahead of the curve and exceeding customer expectations, you can position your Pellet Machine Manufacturing business for long-term profitability and contribute to the growth of the renewable energy sector.

Choosing the right pellet machine manufacturer is a crucial step in ensuring the success and efficiency of your operations, whether you’re producing cattle feed, biomass pellets, or any other type of pellet. With many options available, especially in a dynamic market like India, selecting the right partner can feel overwhelming. Here’s a guide to help you make an informed choice while keeping key factors in mind.

Pellet Crumbler Machine | Maabharti Industries Private Limited

MAABHARTI INDUSTRIES PVT LTD is a premier manufacturing and seller of high-quality machines in Kolkata, West Bengal, India. We have developed and manufactured multifunctional pelletizers, grinders, mixers, detergent powder making machine, detergent soap making machine, automatic detergent powder making machine, bath soap making machine, cutting machine, stamping machine, packaging machine and more than are widely used in feed, biomass, organic fertilizer, pet supplies, chemical industry, and other fields.

Using the Pellet Crumbler Machine in feed production makes huge economic sense. By increasing productivity, reducing energy consumption, accurately controlling pellet length and pellet crusher machines efficiently reduce the charges of feed pellet mills and farms, offering a sustainable and economical animal manufacturing solution for the farming industry.

Animals at special increase stages have precise needs for feed pellet size. However, while producing pellet feed, directly pressing small pellets the usage of a die with a small hole size will lead to low output of the feed pellet machine, which consumes loads of strength of the feed pellet manufacturing line and increases the value of the animal feed pellet mill.

To solve this problem, the pellet crumbler comes into being. Pellet Crumbler Machine is a kind of professional feed processing equipment specializing in crushing large pellet feed (3~6mm) into small pellet feed (1.6~2.5mm).

To know more details about Pellet Crumbler Machine:-

Call us now: +91 7595938888 

Email us at, [email protected]

Visit: Maabharti Industries Private Limited

Factory Address - Keutia, Beside Football Ground, Near Kalyani Expressway, Panpur, North 24 Parganas -743126

Supplier of Plastic Pulverizer in Chennai

Supplier of Plastic Pulverizer in Chennai: Invoit Plast Machinery Pvt. Ltd., based in Ahmedabad, Gujarat, India, is a manufacturer and provider of Plastic Pulveriser Machine throughout India, with a focus on Hyderabad, Nashik, Chennai, Baroda, Bangalore, and Rajkot. Invoit Plast Machinery Pvt. Ltd. also exports Plastic Pulveriser Machine to South Africa, the United Arab Emirates, Nepal, Bangladesh, and Qatar. We are the Best Supplier of Plastic Pulverizer in Chennai, India. We Invoit Plast Machinery Pvt Ltd. a manufacturer of all kind of machinery related to plastic product industries, offers a Pulverizer machine with modern technology to meet the demands of customers. Our Pulverizer machines are useful for materials of high and low-density materials such as LDPE, LLDPE, PC, PS, PET, PVC, EWA, etc. Our Pulverizer machines are operated with a special sensor and control for pressure, temperature and power consumption register to enable round-the-clock operation. Features Space Saving Design Easy Maintenance Low Energy Consumption Minimum Man Power To Operate Dust Free Operation Economical And cost Effective. Available with auto & Manual Mode For ease to Operate Applications of Plastic Pulverizer: Plastic recycling: Transforming plastic waste into pellets or flakes for use in new plastic products. Rubber recycling: Grinding rubber tires into crumb rubber for use in asphalt paving, playground surfaces, and other applications. Wood recycling: Pulverizing wood waste into biomass for energy production. Chemical processing: Grinding chemicals and other materials into smaller sizes for processing and handling. Food processing: Grinding food scraps and other organic materials for composting or biogas production. We are Supplier of Plastic Pulverizer in Chennai Including Adambakkam, Alapakkam, Alwarpet, Ambattur, Aminjikarai, Arumbakkam, Ayanavaram, Chepauk, Chetput, Ekkaduthangal, Eranavur, Ennore, Guduvancheri, Karapakkam, Kattivakkam, Kattupakkam, Madhavaram, Manali, Manapakkam, Mandaveli, Mangadu, Nanganallur, Pakkam, Palavakkam, Pallavaram, Puzhal, Saidapet, Vyasarpadi, Washermanpet, Sriperumbudur, kanchipuram,thiruvallur, oragadam industrial area, Sri City, West Mambalam. Read the full article

How Cow Dung Dewatering Machines Improve Soil Health?

The connection between agriculture and soil health is an age-old one. For centuries, farmers have relied on organic matter to enrich their soil and improve crop yields. One such natural resource that has proved invaluable in this regard is cow dung. However, the challenge lies in managing and utilizing cow dung effectively. This is where Cow Dung Dewatering Machines come into play. They are used to remove the moisture from cow dung, leaving behind a solid material that is rich in nutrients. This material can then be used as a fertilizer to improve soil health.

Benefits of Using Cow Dung Dewatering Machines:

There are many advantages to the usage of cow dung machines to improve soil health. These advantages consist of:

Increased Soil Fertility: Cow dung is a rich source of nitrogen, phosphorus, and potassium, which are vital nutrients for plants. When cow dung is used as a fertilizer, it could help to improve the fertility of the soil and increase crop yields.

Improved Soil Structure: Cow dung also helps to improve the structure of the soil. It does this by adding natural matter to the soil, which helps to improve drainage and aeration. This can result in healthier plant roots and a higher plant boom.

Reduced Soil Erosion: Cow dung can also assist in reducing soil erosion. It does this with the aid of binding the soil particles collectively, making them less in all likelihood to be washed away by rain or wind.

Reduced Environmental Pollution: Cow dung may be a supply of environmental pollution if it isn't properly controlled. However, whilst cow dung is dewatered and used as a fertilizer, it can assist in reducing environmental pollution by decreasing the quantity of methane that is launched into the surroundings.

How To Use A Cow Dung Dewatering Machine?

To use a cow dung dewatering machine or Liquid Separator Machine, the cow dung is first placed into a hopper. It then uses a screw conveyor to move the cow dung right into a chamber in which it is pressed against a screen. The screen separates the solid from the liquid. The solid material is then amassed in a separate container, while the liquid material is discharged.

Tips For The Use Of Cow Dung Dewatering Machines:

Here are a few recommendations for using cow dung dewatering machines correctly:

Use Fresh Cow Dung: Fresh cow dung is quite easy to dewater than that has been stored for a long time.

Shred The Cow Dung: Shredding the cow dung earlier than dewatering enhances the performance of the dewatering procedure.

Use A Display With The Perfect Mesh Size: The mesh size of the display will determine the dimensions of the solid debris that might be accumulated. For maximum applications, a screen with a mesh size of 2-3 mm is best used.

Maintain The System Properly: It is essential to keep the cow dung machine properly to ensure its optimal performance. This includes cleansing the machine frequently and changing any worn parts.

Final Words

Cow dung dewatering machine is quite a valuable device for enhancing soil health. By the usage of cow dung fertilizer, farmers can enhance the fertility of their soil, improve the structure of their soil, lessen soil erosion, and reduce environmental pollutants.

If you're interested in getting the best Liquid Separator Machine or to enquire more, we, one of the trusted Biomass Pellet Making Machine Manufacturers in India are here to assist you. Call us or drop your query now!

Biomass pellets are a type of fuel that is produced by processing biomass.

Biomass Pellets Functions

Biomass pellets are a type of fuel that is produced by processing biomass. They are generally used from the power industry in order to replace coal, which releases co2, and other air flow pollutants. Pellets really are a cost-effective and clean substitute for fossil fuels. On the other hand, producers must supply their feedstock via forestry or agricultural industries which have been responsible for the particular environment.

The production with pellets has increased nowadays, with more as compared to 800 plants generating pellets worldwide. Inside the last decade, the particular production of biomass pellets has risen by 20%. Industrial Biomass Wood Pellet Mill Machine Manufacturers This has made it simpler for to increase using pellets in the power industry. It in addition has facilitated the growth with the bioenergy sector.

Biomass pellets really are a renewable source of energy that intend many benefits. They are cleaner than coal, releasing 80% less CO2 when compared to coal. They may also be more environmentally warm and friendly and produce reduce levels of nitrogen, sulphur as well as chlorine. Moreover, pellets are generally easily handled and stored. Their high density makes them suitable for storage in standard silos.

Biomass pellets are getting to be increasingly popular like a power source in most countries. This tendency is driven by simply government policies, including EU's 2020 target for bioenergy. They enables you to replace coal in power stations, plus industrial applications. Aside from, the large-scale production of pellets offers the potential to stimulate local economies and promote alternative development.

As your fuel, biomass pellets have a high calorific valuation. Since they really are a uniform decorations, they are uncomplicated to store plus transport. These pellets can be co-fired with coal to form heat and electrical power. Depending on the type and composition from the biomass feedstock, the buying price of pellets will are different.

Pelletization is a process that uses underhand and heat to press fine dry biomass into a solid mass. This produces some sort of uniform and highly standardized form of fuel, resulting in the lower moisture content and higher BTU. Properties for instance density, moisture content, particle size, and chemical arrangement affect the calorific value in the final product.

Pelletized biomass can even be used for direct biomass co-firing. When mixed with coal, them reduces harmful emissions. One example is, in the U . s, wood pellets are utilized in co-firing during coal-fired power facilities. Wood pellets also produce up to 85% more vigor per kilowatt associated with electricity than coal.

Pelletized biomass can produce up to 6% of India's entire electricity in 2030/31. At the moment, India has around net biomass availability of 227 zillion tonnes for 2010/11. By way of 2021/2022, the estimated major biomass availability is projected to arrive 245 million tonnes. That's enough to substitute 25% on the country's current coal consumption in the power industry.

Although the price tag on biomass pellets will vary depending on the biomass feedstock, the general cost of producing pellets shall be similar to this of coal. The cost is largely determined by the transportation distance plus the moisture content from the feedstock. Therefore, the unit cost will are inclined to increase with the number of biomass feedstock required.

Improved Paddy Straw as Ruminant Feed: A Review-Juniper Publishers

Abstract

Paddy straw is a major agro-residue fed to ruminants in India. Feeding only rice straw does not provide enough nutrients to the ruminants even for maintenance due to the low nutritive value of this highly lignified material containing high concentration of anti-nutrition factors like lignin, silicates and oxalates. Despite the improvements of crop residues through various processing methods such as physical and chemical, the efficient utilization to desirable extent is still awaited. So utilization of paddy straw in association with concept of complete feed along with biological agents is need of the hour to maximize advantage from given feeds in animal production systems.

    Introduction

In tropical zones of the world, ruminants depend on grazing on natural pastures usually during summer months when these pastures have abundant biomass or these animals are fed with cut grass and crop residues. Most of these areas face seasonal periods in which there is decrease in availability of herbages in these pasture. There is also reduction in the content of digestible energy and crude protein. In these areas rice straw is abundantly available from paddy cultivation and farmers offer rice straw as the main roughage source to their animals. This is particularly the case in developing Asian countries such as Thailand, Vietnam, Indonesia and India [1]. Approximately 80% of the world's rice is grown by small scale farmers in many  developing countries including South East Asia (Table 1) and it is common to use rice straw for animal feeding. As per reports of Devendra [2] that of the total rice straw production, 30-40% is utilized for animal feeding in South East Asia, including China and Mongolia, as rice straw being the principal crop residue fed to more than 90% of the ruminant livestock in this area [3]. Rice straw becomes especially important during periods when other feeds are deficient. In general, the maximum intake of rice straw by ruminants is about 1.0 to 1.2kg per 100kg live weight [2]. As per Saritha et al. [4], the major agro-residues in terms of volumes generated in India (in million metric tons, MMT) were rice straw (112.00), rice husk (22.40), wheat straw (109.90), sugarcane tops (97.80) and bagasse (101.30).

Chemical composition of paddy straw and constraints in feeding to ruminants

The chemical composition of paddy straw varies between varieties and growing seasons, with higher nitrogen and cellulose contents in early season rice compared to others [5]. Paddy straw contains 25-45% cellulose, 25-30% hemi- cellulose and 10-15% lignin with low nitrogen, vitamins, minerals and high quantities of silica which hinder the nutrient availability to rumen microbes and eventually limits the necessary nutrient uptake for a satisfactory performance of the animals [6,7]. Presence of anti-nutritional factors like silicates and oxalates in rice straw with low nutritive value, poor palatability and limited ruminal degradation render paddy straw as non-maintenance type of fodder, so cannot support nutrient requirement of the animals when fed alone [6,8].

Compiled from Prasad et al. [39], Singh & Oosting [52], Shen et al. [49], Van Soest [59], Wanapat et al. [62], Ganai & Teli [19], Akinfemi & Ogunwole [4], Hossain et al. [22], Gomma et al. [21], Hussein et al. [23], Sheikh et al. [48].

The chemical and mineral compositions of rice straw, cited by different workers, are illustrated in Table 2. Rice straw consists predominantly of cell walls, comprised of cellulose, hemi cellulose, and lignin. To break down these components cellulase, hemi cellulase and ligninase are required [9]. In ruminants cellulase and hemicellulase are produced by rumen microorganisms however, lignin cannot be broken down in the rumen due to the lack of ligninase. Lignin, however, has important effects on livestock production through effects on degradability and feed intake. Theoretically, lignin located between the cellulose micro fibrils is regarded as the most abundant natural aromatic organic polymer that plays a role in resisting compressing forces, providing protection against consumption by insects and mammals, and also inhibiting the rate and degree of microbial degradation [10]. Silica, one element of the rice cell walls, can be present in high concentrations ranging from 5% to 15%, depending on the rice variety [11] and the availability of this mineral in the soil [12]. Silica reduces palatability and the degradability of rice straw in the rumen due to its direct action in preventing colonization by ruminal microorganisms [12,13]. The role of silica on the quality of rice straw was also reviewed by Van Soest [8], in an attempt to put into perspective the problems of silicon metabolism. Besides cell wall polymers, rumen organisms need other nutrients for growth and metabolism.

Since rice straw does not contain enough sugars, amino acids and minerals for efficient microbial growth, feeding ruminants with only rice straw, without any supplementation of other required nutrient sources, will result in poor performance of the animals [14]. The combination of low intake, low degradability, low nitrogen content and an unbalanced mineral composition means that rice straw alone may not even meet the animal's maintenance needs. Poor degradability is caused by a series of factors [9]. The fiber is very difficult to degrade, which is partly an intrinsic characteristic of the straw fiber (higher lignin and silca content). The degradation of the straw fiber is also complicated by the poor functioning of the rumen due to the unbalanced availability of nutrients, the low protein content, the lack of easily available energy and the low content of essential minerals such as phosphorus and sulphur. Hence, due to the low degradability and the poor rate of degradation, animals will tend to consume less. The generally accepted theory of feed intake regulation for poor quality roughages is that the capacity of the rumen to process the feed is the major factor determining voluntary feed intake [15,16]. The rumen processing capacity is characterized by rumen fill, the rate of degradation of potentially degradable matter and the rate of passage out of the rumen. Devendra [2] summarized that the main determinants of intake and degradability of rice straw depend on their morphological characteristics, such as the proportion of the different plant parts (leaves and stems), their chemical composition and the distribution of the different chemical components in the tissues, their relative amounts of cell contents and cell walls and the physical and chemical nature of the cell walls. These factors influence the chewing behavior of animals and the extent of fragmentation in the reticulo-rumen. As per Theander & Aman [17], rice straw contains a relatively high proportion of leaf (60%), compared to other cereal straws such as barley (35%), oats (43%) and wheat (20-41%). Vadiveloo [18] reported that leaves of rice straw contain less NDF than the stems, but more ash and acid-insoluble ash, resulting in a lower in vitro dry matter digestibility (IVDMD) of the leaves (50-51%) compared to the stems (61%). In goats, Phang & Vadiveloo [19] observed an in vivo dry matter digestibility of 56.2% for rice leaf and 68.5% for the stem. However, treatment with a 4% urea solution for 21d increased the IVDMD of the leaf fraction more than that of the stem fraction [18]. Since rice straw consists of approximately 60% leaves [20], which are less degradable than stems, improving the feed value of rice straw should focus on improving the degradability of the leaves.

Possible strategies to improve rice straw utilization in ruminants

Feeding only rice straw does not provide enough nutrients to the ruminants even for maintenance due to the low nutritive value of this highly lignified material. Basically, the key to improving the use of crop residues for ruminants is to overcome their inherent barriers to rumen microbial fermentation. In the case of rice straw, the important factors that restrict bacterial degradation in the rumen are its high levels of lignification and silicification, and its low contents of nitrogen, vitamins and minerals [21]. The high level of lignification and silicification, the slow and limited ruminal degradation of the carbohydrates and the low content of nitrogen are the main deficiencies of rice straw, affecting its value as feed for ruminants [8]. To improve the feeding value of rice straw, it can be treated with different means and methods and other required nutrients can be supplemented in the ration of the animal. Strategies to improve the utilization of rice straw are summarized.

    Physical and chemical treatment

Extensive work has been done to improve nutritive value of crop residues by chemical and physical treatments. In physical treatment crop residues can be ground, soaked, pelleted or chopped to reduce particle size or can be treated with steam or X-rays or pressure cooked. Many of these treatments are not practical for use on small-scale farms, as they require machines or industrial processing. This makes these treatments in many cases economically unprofitable for farmers as the benefits may be too low or even negative [9] By treating rice straw with urea or calcium hydroxide or by supplementing rice straw with protein, the intake, degradability and milk yield can be enhanced as compared to feeding untreated rice straw alone [22,23]. In past years, several studies have been reported on the physical and chemical characterization and utilization of rice straw as ruminant feed [5,17,24]. In addition, numerous methods of physical, chemical and biological treatments have been investigated, including supplementation with other feed stuffs or components in order to improve the utilization of rice straw by ruminants [25-30]. The most commonly used alkaline agents are sodium hydroxide (NaOH), ammonia (NH3) and urea. Chemical treatments appear to be the most practical for use at farmers level, the chemicals are relatively cheap and the procedures to use them are relatively simple. However, safety precautions are needed for their use as these chemicals themselves are not harmless. Warly et al. [31] showed in a field trial that a ration of rice straw supplemented with soybean meal increased both degradability and intake. Because of the poor quality of untreated rice straw, supplementation easily can increase milk production, as shown for supplementation with cottonseed meal with an urea molasses- multi-nutrient block [28,32,33] and urea molasses treatment [34].

Rice straw is usually fed untreated without supplements in spite of the fact that many methods for improved utilization of rice straw have been developed and recommended. There are several reasons for farmers not to adopt the already developed methods for improved utilization of straw, such as physical, socio-economic conditions and practical reasons [2].

    Biological Methods

Despite the improvements of crop residues through various processing methods such as physical and chemical, the efficient utilization to desirable extent is still awaited. Hence, it is the need of the hour to utilize these crop residues available in appreciable quantum locally in association with concept of complete feed technology and use of biological agents (feed additives) to maximize advantage from given feeds in animal production systems. Biological treatment is a much favorable option and is believed to be more eco-friendly and safer than the use of chemicals. Various methods of biological treatment/ fortification of paddy straw to enhance its utilization in animals include treatment with white rot fungi, ensilage with agro-industrial byproducts like apple pomace or fortification with proteins, greens or enzymes [35-38]. Although the use of white rot fungi causes significant loss of dry matter and organic matter [21,39] besides needs much more technical know and sometimes beomes impracticable at farmers level. The ensiling of straw with fruit pommace or poultry excreta or rumen liquor does not need sophisticated infrastructure with such facilities available at farmers level, but the advantage of these methods lies in fact of improving digestibility of nutrients, gain in body weight and overall performance of animals. Despite being safe and environmental friendly these biological agents have potent effect on digestibility of fodder by manipulating rumen environment. Gado et al. [40] reported decrease in the total phenolics, saponins and aqueous fraction with higher average daily gain, TDN and digestibility coefficients for DM, OM, CP, CF, NDF and ADF in Ossimi male lambs fed paddy straw ensiled orange pulp treated with exogenous enzymes diet than control. In other study Gado et al. [40] suggested a strong potential in improving digestibility and degradation of NDF and ADF of rice straw pre-treated with exogenous enzymes. Karunanandaa et al. [26,41] also reported enhanced IVDMD in both leaves and stems of rice straw by incubation with white-rot fungi (Pleurotus sajor-caju) for 30 days. However, entire rice straw (leaf and stem) treated with Cyathus stercoreus had the highest IVDMD compared to the other fungi. This improved digestibility of biologically treated straw is result of improvement in chemical composition as Akinfemi & Ogunwole [4] evaluated chemical composition and in vitro digestibility of rice straw treated with Pleurotus ostreatus, Pleurotus pulmonarius and Pleurotus tuber-regium found significant increase in the crude protein and significant decrease in crude fibre, cellulose, neutral detergent fibre, acid detergent fibre and acid detergent lignin of fungal treated rice straw than control. Fungal treated rice straw showed higher values of minerals (Ca and Mg), gas volume, metabolisable energy, organic matter digestibility and short chain fatty acid were also higher in fungal treated straw than control. White rot fungi efficiently degraded the lignin and enhanced the in vitro digestibility of paddy straw [4]

In another study Ganai & Teli [21] reported increase in CP, DCP and TDN content and nitrogen balance in Corriedale sheep fed paddy straw treated white rot fungi (Pleurotus ulmarius). Similarly Abdel-Azim et al. [42] reported that treating rice straw and corn stalks with Trichoderma viride, improved feeding value resulting in higher intake, N balance and growth rate in cross-bred lambs. The author also reported that DM consumption of fungal treated paddy straw was significantly higher than untreated straw. Bassiouni et al. [43] studied the effect of fibrolytic enzymes supplementation on In Situ degradability of DM, CP and CF of different rations consisted of concentrate feed mixture + berseem hay, dried sugar beet tops, corn silage, rice straw or wheat straw in different ratios 60:40or 40:60 incubated in canulated multiparous Friesian cows. Rations contained rice straw showed the lowest (P<0.05) values of in situ DM, CP and CF disappearance. In support of these findings Khattab et al. [37] studied chemical composition, nutritive value, in vitro digestibility and scanning electron microscopy (SEM) of rice straw (RS) and Pleurotus ostreatus spent rice straw (SRS) and reported higher protein, amino acids (mg/100g) content, in vitro dry matter disappearance (IVDMD) and in vitro organic matter disappearance (IVOMD) for SRS compared to RS while, DM, OM, NFE, CF, NDF, ADF, ADL, hemicellulose and cellulose were less for SRS than for RS. Pothiraj et al. [44] reported that fibrolytic enzymes of A. nigersuch as cellulase, p-glucosidase and xylanase had reduced the lignocellulose compound of the rice straw (Figure 1).

Some studies, using fibrolytic enzymes alone could not significantly increase the degradability of rice straw because the ability of these enzymes to break down the esterified bonds within lignin-carbohydrate complexes may be limited. However, when using in combination with other pre-treatments they could increase degradability and in vitro fermentation characteristics, as shown by Eun et al. [51] treated rice straw with xylanase or cellulase in combination with ammonia, Hussein et al. [52] treated rice straw with urea and commercial effective microorganisms, Liu & 0rskov [29] treated rice straw with cellulase in combination with steam pre-treatment, Wang et al. [46] treated rice straw with multi-enzymes (xylanase, β-glucanase, carboxymethyl cellulase and amylase) in combination with NaOH, found that the use of combinations of fibrolytic enzyme with these pre-treatments is expected to have a synergistic effect on the nutritive improvement of rice straw. evaluated use of rumen liquor, chicken manure and commercial probiotic to improve nutritional value of rice straw and reported that crude protein level of rice straw fermented with chicken manure was the highest followed by that of rumen liquor treatment and significantly different from those of commercial probiotic and control treatments. Crude fiber level of rice straw fermented with manure showed the lowest level but not significantly different from rumen liquor and commercial probiotics. These values were significantly lower than control. While assessing the effect of incorporation of wheat straw-rice straw (WS-RS in 50:50 ratio) or Pleurotus florida harvested spent WS-spent RS (50:50) in kids, Kaur et al. [47] observed a higher DM intake (0.80 vs. 0.65kgd-1), digestibility of majority of nutrients (except cellulose which was depressed), N-retention (5.36 vs. 4.87g), apparent biological value (63.08 vs. 53.43%) and daily live weight gain were comparable in both the groups. Apart from enzymatic treatment [37] reported the microbial application of rice straw degraded the lignocellulosic contents, thus improving the rumen DM degradability which would affect the weight gain of animal. By degrading the lignocellulosic contents of rice straw, more nutrients are made available for ruminal microflora, which in turn will sustain the longevity of the microbes.

More importantly, harmful microorganisms such as toxin-producing fungi that contaminate the rice straw could be suppressed by application of microbials on the feedstuff, proving its ability to restrain the growth of the harmful toxin- producing fungi. Gomaa [48] verified the potential benefits of supplementing rice straw with exogenous anaerobic bacterial enzymes (ZAD) and orange pulp for Ossimi sheep found significant (P<0.05) decreases in %CF, %NDF; while %CP, %ADF and %ADL values increased for rations containing either ZAD, orange pulp or both. Rams fed rations containing either ZAD, orange pulp or both significantly increased (P<0.05) ruminal ammonia-N, total volatile fatty acids plasma total protein with low level of gas production post feeding values. Similarly Salehpor et al. [49] evaluated the effect of rice straw processing by Lactobacillus, multi enzymes and calcium hydroxide on the digestibility and nutritional value. Each of three processing operation, reduce the amount of ADF, cellulose and hemicelluloses in the straw. The same trend also has been in the NDF and bacterial processing has the lowest and enzymatic, chemical and control straw have the greatest amount of NDF, respectively. The amount of gas production rate in the bacterial methods was more than the other methods and with increasing incubation time, shows upward trend. Addition of lignocellulolytic enzymes and bacterial lignocellulolytic on rice straw resulted in significant improvement of all the fermentation products (volatile fatty acid, acetate, propionate, butyrate, and ammonia) between control and treatment groups. Lignocellulolytic enzymes @ 5% of dry matter dose rate resulted in optimal products of volatile fatty acid and ammonia [50].

Similarly Samsudin et al. [51] found improved nutritive values of rice straw fed to goats when treated with Aspergillus niger, fungal and effective microbes (EM). No significant (P>0.05) difference was observed on the chemical composition of rice straw treated with A. niger except the CP content increased significantly (P<0.01) when compared with untreated rice straw. However, when the fungal-treated rice straw was inoculated with EM, significant (P<0.01) improvement was observed in DMD, CP, OM, NDF, ADF and cellulose content of the rice straw compared with control. In other study Elmoghazy et al. [53] evaluated effect of sheep diets containing lignolytic microbiological treated (Bacillus licheniformis, Ruminococcus albus, Aspergillus oryzae, Rhizopus nigricans & Saccharomyces cerevisiae) rice straw on blood parameters and nitrogen balance. Results exhibited that the microbiological treatments significantly decreased the DM and CF while CP was significantly increased. Regarding nitrogen balance, haemato- biochemical and serum enzymes (aspartate transaminase and alanine transaminase) were not affected with microbiological treatment. The use of combinations of fibrolytic enzyme with these pre-treatments is expected to have a synergistic effect on the nutritive improvement of rice straw. Especially, the use of lignin-degrading enzymes, originating from fungi, seems a promising development. Although, application of enzymes has proven to increase the feed value of poor quality feedstuffs, its use by smallholder farmers is, for the time being, economically unattractive. However, it becomes a promising technology when used at commercial level [54-65].

    Conclusion

Rice straw being the principle agro-residues in terms of volumes generated in India, is poor in nutritive value with high level of lignification and silicification. So feeding of rice straw to livestock does not provide enough nutrients even for maintenance. Rice straw is usually fed untreated without supplements in spite of the fact that many methods for improved utilization of rice straw have been developed and recommended such as physical, chemical and biological treatments. Among these methods, biological treatment is a much favorable option and is believed to be more environmental friendly and safer.

To read more articles in JOJ Sciences

Please Click on: https://juniperpublishers.com/jojs/index.php

For more Open Access Journals in Juniper Publishers

Click on: https://juniperpublishers.com/journals.php

How does a Biomass Plant Work? Know more about SNCE Solid Biofuel

Ø  LOW-COST SETUP WITH HIGH EFFICIENCY

Ø  ENERGY GENERATION OUT OF WASTE

Ø  SUBSTITUTE TO COAL

About Sai Non-Conventional Energy:

Sai Non-Conventional Energy (SNCE) as a business and an innovator, has the power to make a big difference in our world. All we cater is to help businesses manage their fuel sources and fuel alternatives thoughtfully and wisely. But it is not that easy to find sustainable solutions. This is why, for over a decade, we at SNCE are working relentlessly to deliver leading-edge products that help businesses handle our systems and resources responsibly. We promise to keep building bigger and better solutions. Let's make a difference together!

Our VISION

SNCE manufactures technologies that provide sustainable growth and benefit everyone. We believe in creating Innovative technologies that can help to turn India's vast potential into reality. We aim to Shape the Future and move Societies towards Reliable, Sustainable, and Green energy.

Our MISSION

We at SNCE, build and provide products, services, and solutions of the highest quality and deliver more value to our customers. This eventually helps us build trust with our customers and we are grateful for their respect and loyalty. Our mission is to sustainably live with the coexistence of our Nature.

Conversion of Biomass to biofuels:

How does bioenergy work?

Industries such as agriculture and forestry, municipalities, universities, food processors, hospitals, and medical centers generate billions of tons of waste.

Biomass is the organic by-product left over from plants, animals, and waste from organic sources such as garbage, wood, crops, landfill gas, and alcohol fuel. During combustion, the chemical energy of biomass is released as heat, converted into biofuels and biogases, and ultimately into usable energy such as fuel, electricity, and heat.

The primary process of biomass energy or bioenergy has to do with photosynthesis. Plants contain chlorophyll, which absorbs carbon dioxide from the atmosphere and water from the soil. When animals eat plants, some of this energy is transferred. We call it renewable energy because carbon dioxide and water are released into the atmosphere and used to grow more plants and crops to restart the cycle.

Studies have proven that using biomass as an energy source has several advantages over using fossil fuels and can reduce greenhouse gas emissions. For it to be produced, organic material must go through a biomass conversion process, which has several routes.

As we all know, burning fossil fuels releases carbon from underground reservoirs that would have been trapped for millions of years if left alone. Switching from fossil fuels to energy from biomass, therefore, seemed like an obvious way to save nature and the planet in a sustainable way.

Various biomass feedstocks can be collected and used to produce a broad range of commodities including biofuels, chemicals, animal foods, energy generation products, and other consumer products through several conversion processes using a variety of technologies.

SNCE manufactures biomass-converting biofuel machines. Below mentioned are some machines/equipment/setups:

➔ SILO CUM CONVEYOR SYSTEM FOR BIOMASS

● SILO for Biomass storage

● Input feed to Drum Dryer / Hammer Mill & Pellet / Briquette Machine.

➔ INERT SEPARATION SYSTEM

➔ WOOD CHIPPER

● Wood Chipper Drum

● Wood Chipper Disc Type

● Rotary Drum Chipper

➔ BIOMASS ROTARY DRUM DRYER

● Biomass Rotary Drum Dryer

· Single Pass with Furnace, Dust Collection, ID fan, FD Fan & Material Movement

· Three Pass with Furnace, Dust Collection, ID fan, FD Fan & Material Movement

· Jet Dryer Three Pass with Furnace, Dust Collection, ID fan, FD Fan & Material Movement

· Vertical Gravity Dryer

● Hot air Generator/ Furnace with Spark & Fire Arresting System.

● FD Fan with Motor & Starter

● Cyclone System with Airlock Motor/Dust Rack

● Induced draft fan with motor & suitable starter/VFD System

➔ HAMMER MILL SYSTEM

● Hammer Mill

● Dust Collection Cyclone photo with Air Lock & Dust Collector

➔ SCREW CONVEYOR

● Screw Type Conveyor for feeding biomass to hammer mill

● Briquette machine

➔ BELT/BUCKET CONVEYOR

➔ AIR CONVEYOR

➔ BRIQUETTE PLANT SETUP FOR 80/90/100 MM DIAMETER BRIQUETTE

➔ PELLET PLANT SETUP FOR 8-32MM PELLET DIAMETER BRIQUETTE. (ROUND OR SQUARE)

➔ SCREW TYPE BRIQUETTE MACHINE SETUP FOR 35MM TO 50MM WITH CENTRE HOLE

➔ ADD-ON & AUTOMATION

● Complete System Automation & Plant Integration

● All required Electrical Services

● Input & Output Product Quality Control Equipment

Industries we have been serving:

· REFRACTORY INDUSTRIES

· AQUACULTURE

· MEDICAL

· GASIFIER SYSTEM APPLICATION

· CERAMIC INDUSTRIES

· MILK PLANT

· VEGETABLE OIL PLANTS

· SPINNING MILL

· LEATHER INDUSTRIES

· RUBBER INDUSTRIES

· SOLVENT EXTRACTION PLANT

· DYEING UNITS

· FOOD PROCESSING INDUSTRIES

· TEXTILE UNIT

· LAMINATION INDUSTRIES

SNCE have satisfactorily served various industries to build a sustainable environment and help scale their business. We provide high-efficiency low-cost biomass plant setups and types of equipment like biomass briquette/pellet systems, rotary drum dryers, hammer mills, etc.

If you have any queries, feel free to contact Sai Non-Conventional Energy

Contact number: +91 9923540893 /+91 8329016029

Email us at: [email protected] / [email protected]

Best Wood Crusher Machine Manufacturers and Wood Crusher Machine Suppliers and Exporters in Mumbai, India

In the ever-evolving world of industrial machinery, one company stands out as a leading manufacturer and supplier of Wood Crusher Machines: Keyul Enterprise, based in Mumbai, India. With a commitment to quality and innovation, Keyul Enterprise has become a go-to destination for businesses seeking efficient and reliable Wood Crusher Machines.

What is a Wood Crusher Machine?

A Wood Crusher Machine is a powerful industrial equipment designed to break down and crush various types of wood materials into smaller pieces or chips. These machines are essential in a variety of industries, including biomass energy production, paper manufacturing, and landscaping. By reducing the size of wood waste, these machines not only facilitate efficient disposal but also enable the repurposing of the crushed material for various applications.

Why Choose Keyul Enterprise?

Keyul Enterprise has established itself as a trusted name in the industry, thanks to its unwavering dedication to quality and customer satisfaction. With years of experience and expertise, the company offers a wide range of Wood Crusher Machines tailored to meet the diverse needs of its clients.

In addition to Wood Crusher Machines, Keyul Enterprise is also a leading manufacturer of Oil Press Machines, Oil Filter Machines, Chaff Cutter Machines, Pellet Machines, and Wood Chipper Machines. This diverse product portfolio showcases the company's versatility and commitment to providing comprehensive solutions to its customers.

Quality and Innovation

At Keyul Enterprise, quality is paramount. The company employs state-of-the-art manufacturing processes and adheres to stringent quality control measures to ensure that every machine meets the highest industry standards. Moreover, Keyul Enterprise continuously invests in research and development, enabling it to stay ahead of the curve and introduce innovative features and technologies to its product line.

Customer-Centric Approach

Keyul Enterprise's success is built on its customer-centric approach. The company understands that every business has unique requirements, and it works closely with its clients to provide tailored solutions that meet their specific needs. From initial consultation to post-sales support, Keyul Enterprise ensures a seamless and satisfactory experience for its customers.

Conclusion

Whether you're in the market for a high-performance Wood Crusher Machine or any other industrial machinery, Keyul Enterprise is the go-to destination. With its commitment to quality, innovation, and customer satisfaction, this Mumbai-based manufacturer and supplier of Wood Crusher Machines and other industrial equipment is poised to meet the demands of businesses across India and beyond.

Maha Shiv Shakti Engineers is the leading Pellet Machine Manufacturers in India known for producing high-quality machinery designed to efficiently convert biomass materials into pellets. These machines are widely used in industries like agriculture, energy, and animal feed production. Pellet Machine Manufacturers in India offer innovative and durable solutions that meet international standards, ensuring optimal performance and sustainability. With a focus on eco-friendly processes, these manufacturers play a vital role in supporting renewable energy and promoting green practices across the country.

(2020-2025) Biomass Briquette Market Report: Business Insights And Growth Factors

"Competitive profiles and Analysed measurements for past years of global Biomass Briquette Market 2020".

The Focused Objective of the newly released Global Biomass Briquette Market Report is to forecast upcoming industry trends, size, share, top companies profiles, growth report by 2025.

The Global market of Biomass Briquette is Exhaustively analyzed an researched in this report to assist the global market player in improving their business strategies and tactics to ensure long term success. Our experts have drafted this report in an easy-to-understand expression and simple analytical image. The aim of the expert is to provide throughout the information about the market in detail. It also highlights the effects of the slowdown in world economic growth and helps to clarify the decision of maintaining the average annual growth rate.

Global Biomass Briquette Market Competition:

The competitive landscape of the market is widely studied with key focus on recent developments, Future strategies of the players and also their Growth enhancement strategies. The report compiles the profiles of the key market competitors and their crucial business aspects such as production, areas of operation, and product portfolio. The key player's profiles are segmented based on some of some crucial factors like market share, company size, market growth, production size, revenue, and earning.

Request link to get sample pdf of the report: https://market.biz/report/global-biomass-briquette-market-2017-mr/160012/#requestforsample

The Profiled Key Vendors of Biomass Briquette: German Pellets, Protocol Energy, Senon Renewable Energy, BlueFire Renewables, General Biofuels, Aoke Ruifeng, Maine Woods Pellet, Drax Biomass, Rentech, Viridis Energy, Weige Bio-tech Energy, Energex, Verdo Renewables, Enova Energy Group, Sinopeak-bioenergy, Neova Vaggeryd, Pfeifer Group, Granules LG, Bayou Wood Pellets, E-pellets, Graanul Invest Group, Westervelt, Enviva, Equustock, West Oregon Wood Prod, DEVOTION, Bear Mountain Forest Prod, RWE Innogy, New Biomass Holding LLC, Binderholz, Corinith Wood Pellets, Lignetics, Fram Renewable Fuels, Vyborgskaya Cellulose, Appalachian Wood Pellets, Pacific BioEnergy Corporation, Premium Pellet Ltd., Biomass Secure Power, Agropellets, Pinnacle Renewable Energy Group

Segmentation and Targeting of the Global Market:

The Aspects of the company are to enclose the businesses require in order to fit in with the target. The data about Essential demographics, geography, psychographics, and Behavior has been evaluated about companies. the study for the consumer-based market also classifies market maker information in order to assess the behavioral pattern.

**What's Special To buy?

1* Inclusion of past, Present and future forecast data of the market.

2* Precise evaluation across various regions for well-established and rising market competitors.

3* Various aspects strengths, weaknesses, opportunities, and threats analysis are also included

4* It Covers Market players, their company profile, production, and usage.

5*  It also describes the Tremendous growth and growth opportunities of the market.

The 3 Key Segments of Market:

Type Based Segmentation: Biomass Pellet, Biomass Briquette

Application-based segmentation: Power Generation, Thermal Energy

Regional Segmentation:  South America, India, Japan, China, The Middle East & Africa, North America and Europe

Critical Queries Solved About Biomass Briquette Market:

1Q. who are the key drivers and restraints of the market?

2Q. What will be the market size Biomass Briquette by the forecast period?

3Q. Which region will lead the Biomass Briquette market globally in terms of growth rate?

4Q. What will be the key strategies and policies adopted by market leaders for the future?

5Q. What is the upcoming usage transformation?

6Q. How will the global Biomass Briquette market develop in the long term?

Biomass Briquette  Global Target Audience of the market report:

-  Global manufacturers of Biomass Briquette.

- Biomass Briquette Global Suppliers.

- Biomass Briquette focused companies.

- Key executive and strategy growth manager of companies.

You can also Inquire Before Buying: https://market.biz/report/global-biomass-briquette-market-2017-mr/160012/#inquiry

The Eight Key chapters of the Global Biomass Briquette Market Report are Market Overview, Product Overview, Research Approach, Methodology, Research Programs Design, Market Size Estimation, Market Breakdown, and Data Triangulation, Data Source, Primary Sources, Secondary Sources. The crucial chapters cover all the aspects of the Market.

Thank You!

Our Interesting Category based blogs:

Consumer Goods

Food and Beverages

Machines and Equipment

Global Biomass Briquette Market by Manufacturers, Regions, Type and Application, Forecast to 2023

Worldwide Market Reports added Latest Research Report titled "Global Biomass Briquette" to its Large Report database.

Biomass molding fuel is made of agricultural and forestry residues such as rice stalk, straw, cotton stalk, bamboo sawdust, wood flour, ramie stalk, peanut husk, etc. It is produced by pellet machines or briquetteing machines, after going through several processing procedures, such as crushing, drying, mixing, molding or compressing, etc. And the final products are pellets and briquettes, which are used as a replacement for coal, gasoline gas and other traditional fossil fuels. Compared to fossil fuels, biomass molding fuel produce low net total greenhouse gas emissions because the materials used are already a part of the carbon cycle.

Get Sample Copy of Research Report:https://www.worldwidemarketreports.com/sample/194909

Biomass pellet fuel are biofuels made from compressed organic matter or biomass. Wood pellets are the most common type of pellet fuel and are generally made from compacted sawdust and related industrial wastes from the milling of lumber, manufacture of wood products and furniture, and construction. Other industrial waste sources include empty fruit bunches, palm kernel shells, coconut shells, and tree tops and branches discarded during logging operations. Biomass briquettes are mostly used in the developing world, where cooking fuels are not as easily available. There has been a move to the use of briquettes in the developed world, where they are used to heat industrial boilers in order to produce electricity from steam. The briquettes are cofired with coal in order to create the heat supplied to the boiler. Biomass briquettes, mostly made of green waste and other organic materials, are commonly used for electricity generation, heat, and cooking fuel. These compressed compounds contain various organic materials, including rice husk, bagasse, ground nut shells, agricultural waste. The composition of the briquettes varies by area due to the availability of raw materials. The raw materials are gathered and compressed into briquette in order to burn longer and make transportation of the goods easier There are the difference between biomass pellet and biomass briquette. Biomass pellets are usually utilized in home pellet stove, central heating boiler, industrial boiler, or in power plants to replace coal. They can also be used as horse bedding and cat litter. Howerver, biomass briquettes are sticks or blocks with large diameter and different shapes (hexagon, cylinder, cuboid, etc.) made by biomass briquette machines. They are primarily for industrial use for heating. Scope of the Report: This report focuses on the Biomass Briquette in global market, especially in North America, Europe and Asia-Pacific, South America, Middle East and Africa. This report categorizes the market based on manufacturers, regions, type and application. At present, in developed countries, the Biomass Fuel industry industry is generally at a more advanced level. The world's large enterprises are mainly concentrated in EU. Meanwhile, foreign companies have more advanced equipment, strong R & D capability, and leading technical level. With the development of Chinese Biomass Fuel industry production technology, their share in the international market is increasing, and competitiveness in the international market gradually increases. The demand for industrial biomass briquette& pellets for energy production is driven, in significant part, by governmental policies and incentives. EU has become a large international consumption country of Biomass Fuel industry,in2015 EU account for approximately 76.43% of global biomass briquette&pellets production. As Chinese overall economic downward trend in the past few years, in the next few years there will be many uncertainties, and coupled with Biomass Fuel industry situation in the past few years, the current demand for Biomass Molding Fuel product is relatively low. In the coming years, as the environmental standards are more and more strict, biomass fuel market is expected to witness the highest growth rate in the Asia-Pacific region. Although biomass briquette&pellets brings a lot of opportunities, the study group recommends that the new entrants just having money but without technical advantages and upstream/downstream support should not to enter into this field. The worldwide market for Biomass Briquette is expected to grow at a CAGR of roughly 7.5% over the next five years, will reach 490 million US$ in 2023, from 320 million US$ in 2017, according to a new GIR (Global Info Research) study. Market Segment by Manufacturers, this report covers German Pellets Enviva Pinnacle Renewable Energy Group Pacific BioEnergy Corporation Vyborgskaya Cellulose Rentech Graanul Invest Group RWE Innogy Lignetics E-pellets Drax Biomass General Biofuels BlueFire Renewables Pfeifer Group Biomass Secure Power Viridis Energy Westervelt Energex Fram Renewable Fuels Protocol Energy Premium Pellet Ltd. Granules LG Enova Energy Group Corinith Wood Pellets Maine Woods Pellet Appalachian Wood Pellets Bear Mountain Forest Prod Agropellets West Oregon Wood Prod Bayou Wood Pellets Neova Vaggeryd Aoke Ruifeng DEVOTION Sinopeak-bioenergy Senon Renewable Energy Equustock Weige Bio-tech Energy New Biomass Holding LLC Verdo Renewables Binderholz Market Segment by Regions, regional analysis covers North America (United States, Canada and Mexico) Europe (Germany, France, UK, Russia and Italy) Asia-Pacific (China, Japan, Korea, India and Southeast Asia) South America (Brazil, Argentina, Colombia etc.) Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa) Market Segment by Type, covers Biomass Briquette Biomass Pellet Market Segment by Applications, can be divided into Thermal Energy Power Generation Other

There are 15 Chapters to deeply display the global Biomass Briquette market. Chapter 1, to describe Biomass Briquette Introduction, product scope, market overview, market opportunities, market risk, market driving force; Chapter 2, to analyze the top manufacturers of Biomass Briquette, with sales, revenue, and price of Biomass Briquette, in 2016 and 2017; Chapter 3, to display the competitive situation among the top manufacturers, with sales, revenue and market share in 2016 and 2017; Chapter 4, to show the global market by regions, with sales, revenue and market share of Biomass Briquette, for each region, from 2013 to 2018; Chapter 5, 6, 7, 8 and 9, to analyze the market by countries, by type, by application and by manufacturers, with sales, revenue and market share by key countries in these regions; Chapter 10 and 11, to show the market by type and application, with sales market share and growth rate by type, application, from 2013 to 2018; Chapter 12, Biomass Briquette market forecast, by regions, type and application, with sales and revenue, from 2018 to 2023; Chapter 13, 14 and 15, to describe Biomass Briquette sales channel, distributors, traders, dealers, Research Findings and Conclusion, appendix and data source

Get Best Discount on Research Report: https://www.worldwidemarketreports.com/discount/194909

**If you have any special requirements, please let us know and we will offer you the report as you want. About WMR

Worldwide Market Reports is your one-stop repository of detailed and in-depth market research reports compiled by an extensive list of publishers from across the globe. We offer reports across virtually all domains and an exhaustive list of sub-domains under the sun. The in-depth market analysis by some of the most vastly experienced analysts provide our diverse range of clients from across all industries with vital decision making insights to plan and align their market strategies in line with current market trends. Worldwide Market Research’s well-researched inputs that encompass domains ranging from IT to healthcare enable our prized clients to capitalize upon key growth opportunities and shield against credible threats prevalent in the market in the current scenario and those expected in the near future.

Contact Us:

Mr. Shah

Worldwide Market Reports

1001 4th Ave,

#3200

Seattle, WA 98154,

U.S

Tel: +1 415 871 0703

Email: [email protected]

The Sawdust to Charcoal Machine Price Can Vary According To The Type Of Briquette Produced

Charcoal has been used for thousands of years. It is usually created from compressed coal dust, but recent technology allows other biomass materials such as sawdust, peat, wood chips and in many cases paper to get formed into charcoal. New machinery has improved the procedure of making charcoal from sawdust. There are actually different machines available and the sawdust to charcoal machine price can vary based on the type of technology involved. The process involves quite high temperatures, typically greater than 700 degrees Centigrade. The better the temperature, the faster the procedure. The greater quickly the sawdust can be created into charcoal, the low the fee for the complete process.

Charcoal made out of biomass materials including sawdust are classified as biomass briquettes. These are typically becoming increasingly popular simply because they enables you to replace fossil fuel briquettes. They are often used in the same manner traditional charcoal briquettes are being used including heating boilers in carbonization facilities and other places where high heat is necessary. These briquettes may also be good to utilize in developing countries where traditional fuel and briquettes will not be available.

These biomass briquettes are thought a renewable fuel source and assist in preventing the production of fossil fuel carbons in the atmosphere. Sawdust and other biomass material briquettes are being used around the globe.

In India, many manufacturing facilities have switched to biomass briquettes which saves the firms cash on fuel to fire their boilers. The briquettes are really popular in southern India and a lot of companies in this field happen to be replacing their traditional coal furnaces with the ones that can burn biomass briquettes.

In India, companies converting to biomass fuels can earn Carbon Credits from the Indian government. These credits acknowledge the industry's efforts to lower its fossil fuel emissions. An additional benefit of employing sawdust or another biomass briquettes will be the higher caloric value they give which leads to lower overall fuel costs.

Sawdust could be compressed t form a briquette and can also be produced to resemble a tradition log. It may then be utilized to replace firewood. Exactly the same process is now being accustomed to produce wood pellets that are then burned in wood-burning stoves. These two are far cheaper than using traditional coal or wood fuel sources. It is actually more potent to shed a sawdust briquette than a firewood. The moisture content in the sawdust briquette is approximately four percent, while firewood could have a moisture content as much as 65 percent. This will make burning a sawdust briquette much more efficient.

The sawdust briquette is produced inside a machine which compresses the sawdust under high pressure even though it is heated into a high temperature. The heat made by this sort of sawdust briquette is quite a bit beyond heat made by regular firewood. Additional resources.

The two main kinds of sawdust briquettes. One form is solid along with the other includes a hole in between. These are both considered sawdust briquettes but are created by various methods. The sawdust to charcoal machine price can vary according to the kind of sawdust briquette being produced.