Ethylene is a colorless and flammable gas with the chemical formula C2H4, representing one of the simplest hydrocarbon compounds with a double bond between carbon atoms. It is a natural plant hormone responsible for regulating various growth and developmental processes in plants, including ripening and flowering. Ethylene has significant industrial importance, as it is widely used in the production of plastics, particularly polyethylene, which is one of the most commonly used plastics worldwide. It also finds application in the chemical industry for the synthesis of various organic compounds. Ethylene's dual role in plant biology and industrial chemistry highlights its importance in both the natural world and human technology.
Formic acid, with the chemical formula HCOOH, is the simplest carboxylic acid and a colorless, pungent liquid with a sharp odor. It is naturally found in the venom of certain ants and serves as a key ingredient in stinging nettle plants. Formic acid is widely used in various industrial applications, including as a preservative and antibacterial agent in livestock feed, a coagulant in rubber production, and a powerful descaling agent for cleaning metal surfaces. It also plays a role in textile and leather processing, and as a basic building block in the synthesis of various organic chemicals. Its versatility and reactivity make formic acid a valuable compound with a range of practical uses in different industries.
Magnesium oxide, often referred to as magnesia, is a white, odorless, and alkaline solid with the chemical formula MgO. It is recognized for its diverse applications across industries. In healthcare, it is used as an antacid to relieve heartburn and indigestion, as well as a magnesium supplement. In the construction sector, magnesium oxide is utilized as a refractory material in kiln linings and as a fireproofing agent in building materials. It also plays a role in metallurgy as a refractory lining material for furnaces. Additionally, magnesium oxide finds application in the production of electrical insulators, as a catalyst in chemical processes, and as a stabilizer in some food products. Its ability to withstand high temperatures, neutralize acidity, and serve various functions highlights its importance in different industrial and consumer applications.
Magnesium sulfate, commonly known as Epsom salt, is a chemical compound with the formula MgSO4. It is a versatile mineral compound used in various applications. In agriculture, magnesium sulfate is employed as a fertilizer to correct magnesium deficiencies in soil, promoting plant growth and health. In the medical field, it is used as a laxative and in certain medical treatments for conditions like eclampsia and pre-eclampsia during pregnancy. Additionally, Epsom salt is popular in personal care and wellness practices, where it is added to bathwater for its potential muscle-relaxing and soothing properties. Its multi-purpose utility in agriculture, healthcare, and relaxation underscores its significance in different aspects of everyday life.
Optical brighteners, also known as fluorescent whitening agents (FWAs) or optical brightening agents (OBAs), are chemical compounds used in various industries, primarily in textiles, paper, and detergents. These substances absorb ultraviolet (UV) light and re-emit it as visible blue light, making colors and whites appear brighter and more vivid. Optical brighteners are often added to laundry detergents to give the illusion of cleaner and whiter clothing by enhancing their visual brightness. They are also used in the paper industry to improve the brightness and whiteness of paper products. Optical brighteners' ability to improve the appearance of materials under certain lighting conditions makes them valuable in enhancing the visual quality of a wide range of consumer and industrial products.
Oxalic acid is a colorless, crystalline organic compound with the chemical formula H2C2O4. It is naturally found in various plants, particularly in foods like spinach and rhubarb, and serves as a common component in some household cleaning products. Oxalic acid has versatile applications, most notably as a rust remover and stain cleaner for metal surfaces. In addition to its cleaning properties, it is used as a reducing agent in certain chemical reactions and as a mordant in textile dyeing. However, it should be handled with caution as it can be toxic when ingested in large quantities. Its ability to effectively remove stains and its role in various chemical processes make oxalic acid a valuable compound in both household and industrial settings.
Polyacrylamide is a synthetic polymer composed of acrylamide monomers and is widely used in various industrial, environmental, and scientific applications. It comes in various forms, including powder, liquid, and gel. In water treatment, polyacrylamide is employed as a flocculant and coagulant to separate and remove suspended particles and impurities, aiding in the purification of drinking water and wastewater treatment. Additionally, it plays a crucial role in the petroleum industry for enhanced oil recovery and in agriculture for soil conditioning and erosion control. In the laboratory, it serves as a gel for electrophoresis in DNA and protein analysis. Its versatility in facilitating solid-liquid separation and its ability to modify the rheological properties of fluids make polyacrylamide a valuable polymer in a range of practical applications.
Sodium alginate is a natural polymer derived from brown seaweed, known for its remarkable thickening, gelling, and stabilizing properties. Widely employed in the food industry, sodium alginate is utilized to create gels and provide texture in various culinary applications, such as in the formation of gel-like spheres through molecular gastronomy techniques. It also finds use in the pharmaceutical and textile industries, where it serves as a thickener in liquid medicines and a sizing agent in textile printing, respectively. Sodium alginate's biocompatibility and ability to form gels in the presence of calcium ions make it a versatile and valuable substance in numerous fields.
Sodium bicarbonate, commonly known as baking soda, is a versatile chemical compound with a wide range of practical applications. It is often used in cooking as a leavening agent, helping baked goods rise by releasing carbon dioxide when combined with acidic ingredients. Beyond the kitchen, sodium bicarbonate has various uses, including as an antacid to alleviate indigestion and heartburn, a cleaning agent to remove stains and odors, and a fire extinguisher due to its ability to release carbon dioxide, smothering flames. It also finds applications in personal care products, pharmaceuticals, and as a pH regulator in swimming pools and water treatment processes, making it a valuable and multipurpose chemical compound.
Sodium formate is a chemical compound with diverse applications in industries such as textiles, agriculture, and de-icing. It is commonly used as a reducing agent in the textile and leather industries during the dyeing and tanning processes, helping to achieve vibrant and lasting colors while also improving the softness and quality of materials. Additionally, sodium formate is utilized as a de-icing agent on roads and runways, effectively melting ice and snow due to its ability to lower the freezing point of water. Its versatility and effectiveness in various industrial contexts make sodium formate a valuable chemical compound with wide-ranging practical uses.
Sodium gluconate is a versatile chemical compound widely employed in various industrial applications. It is primarily recognized for its role as a chelating agent and concrete admixture. In construction, sodium gluconate is added to concrete mixes to enhance workability and reduce water content, ultimately improving the strength and durability of concrete structures. Its chelating properties make it valuable in cleaning products, as it effectively binds with metal ions and prevents them from causing stains or corrosion. Sodium gluconate is also used in the food and pharmaceutical industries, serving as a buffering agent, sequestrant, and stabilizer in various products. Its multifaceted properties contribute to its significance across different sectors.
Sodium hydrosulfite, also known as sodium dithionite, is a powerful reducing agent widely used in industrial applications. Its primary function is as a bleaching agent in the textile and paper industries, where it effectively removes color from fabrics and paper pulp, making it crucial for achieving white and colorfast textiles and paper products. Additionally, sodium hydrosulfite is employed in various chemical processes, such as in the production of certain polymers and in water treatment to remove excess chlorine. Its remarkable reducing properties, which allow it to decolorize and dechlorinate, make sodium hydrosulfite a valuable chemical compound in multiple industrial sectors.
Sodium hypochlorite is a chemical compound recognized for its potent disinfectant and bleaching properties. It is commonly found in household bleach and is widely used for water purification, sanitation, and as a cleaning agent. In water treatment, sodium hypochlorite effectively eliminates bacteria, viruses, and algae, making it a crucial component in the disinfection of drinking water and swimming pools. Additionally, it is used in healthcare settings for surface disinfection, and in the food industry to sanitize equipment and food contact surfaces. Sodium hypochlorite's ability to kill microorganisms and remove stains makes it a valuable chemical for a range of applications, particularly in maintaining hygiene and cleanliness in various environments.
Sodium silicate, often referred to as liquid glass, is a versatile inorganic chemical compound with a wide range of industrial applications. It is a colorless, viscous liquid that solidifies when exposed to air or heat. Sodium silicate is used as a binding agent in industries such as construction, where it binds together particles in cement and refractory materials, and in the automotive sector for manufacturing brake linings and foundry molds. It also finds use in detergents and soaps as a corrosion inhibitor and emulsifying agent, and in water treatment processes to control pH levels and precipitate impurities. The varied properties and applications of sodium silicate make it a valuable component in several industries.
Sodium sulfide is a chemical compound known for its multiple industrial applications, primarily in the realm of metallurgy and the production of chemicals. It is a yellow to red solid or solution that serves as a powerful reducing agent, facilitating the removal of oxygen from various metal ores during ore processing, thereby aiding in the extraction of metals like copper, lead, and zinc. Sodium sulfide also plays a role in the leather industry for hair removal during leather processing and in the textile industry for dyeing and desulfurization. Additionally, it is used in wastewater treatment as a precipitating agent for heavy metals and in the production of various organic chemicals. Its versatility as a reducing and sulfur-bearing agent makes sodium sulfide crucial in multiple industrial processes.
Stearic acid is a saturated fatty acid that plays a crucial role in various industries, including cosmetics, pharmaceuticals, and the production of candles and soaps. It is recognized for its waxy, solid form at room temperature and its versatility as an ingredient. In the cosmetics and skincare industry, stearic acid is commonly used as an emulsifying agent, thickener, and stabilizer in creams, lotions, and cosmetics, imparting a smooth texture and improving product consistency. In the manufacturing of candles and soaps, it acts as a hardening agent, enhancing the durability and structure of these products. Stearic acid's multifunctional properties make it an integral component in numerous consumer goods, contributing to their quality and performance.
Plate Iron Scrap is a material that a visual inspection appears of regular shape. This by-product is formed after slag processing in electrometallurgical furnaces. Its chemical composition is homogeneous and stable with about Fe 90% and P around 1.4%, S 0.8% and C 1.4%. The max weight of each pieces is up to 1 ton. The material can be loaded loose in 20 heavy duty container. For further details feel free to contact us.
The Aluminium Incinerated scrap is the by-product derived from the reprocessing IBA Incinerator bottom ash). It can be classified as follows: Basel code B1010. EW Code: 17 04 02. With a low melting point at 660'C, on visual inspection, aluminium can be found as melted and re-solidified particles or rocks. This happens to aluminium foil that is converted into small droplets during the incineration process. Some larger and thicker aluminium packaging items can still be partially recognised as they retain their shape. The heterogeneous nature of the processed material is due to the diversified conditions present in the combustion chamber, (some relatively cooler regions in the furnace). The stock can contain all kind of aluminium packing. We can currently provide this material in three different fractions and with different aluminium content: 3-8 mm split in two different qualities: 65% ± 3% Al 85% ± 3% Al 8-16 mm: about 70% ± 3% Al 16-60 mm: about 80% ± 3% Al The material contains minor impurities typically stones, ash, glass. Such components are inherent and adhere to the scrap surface. The total impurities can be sorted, but not fully removed. The collected stock is stored in warehouse on cemented flooring. It can be loaded loose in 20' Feet heavy duty container.
Waste Specification: European Classification: E46 EWC Code: 19.01.02 Basel Code: B10 10 The material is loose steel scrap processed through an incinerating plant for domestic waste followed by magnetic separation, fragmentized into pieces and consisting partly of tin coated steel cans. At a visual inspection, the material is fragmentized, with iron and steel parts, resulting partly cut or in shredded form. The stock appears heterogeneous and contains all kind of cut or dismantled steel parts such as sheets, bars, frames, wires, bolts and other iron/steel household residues. The incinerated scrap is eventually oxidized, due to the thermal and cooling treatments, that the material has been submitted to. The burnt scrap also contains minor slag parts, ash and iron oxide, due to the recovery process. Such components are inherent and adhere to the scrap surface. The total impurities, can be sorted, but not fully removed. The consignment does not contain any type of arms, ammunition, mines, shells, cartridges, radioactive contaminated, or any other explosive material in any form either used or otherwise. The collected stock, is stored in open air, on cemented flooring. Due to the scrap dimensions and the material conditions, this particular scrap, should be carefully evaluated first, by the end users, to confirm its adequate recovery ratio and its suitability to be re-melted in the electric arc furnace. Please feel free to contact us for further details