Corporate Social Responsibility
Efforts to Bring About a Society That Relies on Recycling
In order to help build a society that values recycling, ALSEAS works to minimize waste from biomass power generation, dispose of garbage in an acceptable manner, and recycle as much as possible.
By burning wood biomass fuels produces ash, the primary byproduct of biomass power generation. Among other things, The customers of ALSEAS tend to turn this ash into cement, roadbed materials, and more.
Sustainable Actions
While working with our clients we aim to create a society where Biomass fuels are used in industries to bring a significant change in the current carbon footprint. ALSEAS is assisting in the reduction of CO2 emissions, which contributes to a more sustainable society and planet.
Concurrently, while working in the energy sector such as providing Biomass fuels, ALSEAS is committed to bring about a significant change in environment, ecosystem, which includes Humans, as well as plants and animals.
We hope to realize renewable energy with less of an effect on the environment and add to the eternal symbiosis between humans and the planet by reducing this influence as much as feasible.
Respecting the Cultures and Heritage, while Collaboratively Creating Value
ALSEAS is committed to specializing in trading various fuels, including agricultural residues and biomass. Our goal is to provide high-quality products that are cost-effective and environmentally benign alternative to petroleum and other fossil fuels along with excellent service to our clients.
It is our firm belief that, it is our inherent duty to guarantee the reliable operation of power generating facilities and the consistent supply of renewable energy.
Frequently Asked Questions
We conclude some answers of your questions that may require to clarify your views. If you have any more queries feel free to ask above Call to Action section in this page.
We are here to serve you.
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What are the calorific values of the fuels you supply?
Biomass/BioFuel
Raw Materials GCV (kcal/kg) Wood Chips 3,500-4,000 Corn Cobs 3,500-4,000 Cotton Stalks 3,000-3,500 Mustered Straw 3,000-3,500 Rice Husks 2,800-3,400 Wheat Straw 2,500-3,200 Sugarcane Bagasse 2,500-3,000 Wood 3,900-4,800 Animal Waste (Manure) 1,500-2,500
Pellets
Raw Materials GCV (kcal/kg) Wood Chip Pellets 4,200-4,800 Corn Cobs Pellets 3,800-4,200 Cotton Stalks Pellets 3,200-3,800 Mustered Straw Pellets 3,200-3,800 Rice Husks 3,200-3,800 Wheat Straw Pellets 3,200-3,500 Sugarcane Bagasse Pellets 3,000-3,500 Animal Waste (Manure) 1,500-2,500
- Why should I pay higher price for biomass in bale form when it is not adding any value in term of calorific value?
When compared to loose biomass, biomass in bales is typically more practical and simpler to work with. Bales of biomass make for more efficient storage and take up less room if that's an issue. Furthermore, baled biomass is typically easier and less messy to carry, which in turn lowers the transportation cost.
It might be more cost-effective for you if you have the means to store and manage loose biomass. In the end, it ultimately comes down to your specific needs and preferences.
- How much space can be saved if we buy biomass in bale form as compare to loose form?
Because of their increased bulk density and relative compactness, baled biofuels often require less storage space than loose material. Bulk densities of baled biofuels can be as much as three times greater than those of loose material, according to certain estimations.
To illustrate the point, although the bulk density of loose rice husk is around 80-100 kg/m³, the bulk density of baled rice husk can vary between 150 and 250 kg/m³, influenced by factors such as bale size and compression. Bulk densities of baled mustard straw can vary between 120 and 200 kg/m³, but those of loose mustard straw are around 70 to 90 kg/m³.
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Can all biomasses be converted into bale form?
The process of turning biomass into bales is not straightforward for all biomass kinds. A lot of the biomass that is baled is that which contains long, fibrous stalks, such as maize stover, straw, and hay. Wood chips and sawdust are examples of biomass, although their tiny size and irregular form make them less amenable to baling.
Size, shape, moisture content, and baling equipment and processes are a few of the variables that affect biomass's baleability. Grinding or drying the biomass before baling it is an option, although it might increase the process's complexity and expense.
In the end, the intended use of the material, the kind and properties of the biomass, and other factors will determine the practicality of baling biomass.