Briquette for BBQ Spec : Calorie Value 7000kcal - 8000 Kcal Ash Content 20% Total Moisture 7% White Ash No Chemicals Fixed Carbon 51% Shape and Size by request
Whole / Broken Mace Siau/Ambon, Papua 1 Mace Broken < 10ppb* / < 20 ppb* 2 Mace FAQ < 10ppb* / < 20 ppb* 3 Mace Sieved & Clean < 10ppb* / < 20 ppb* 4 Mace HPS (Hand Picked and Selected) < 10ppb* / < 20 ppb* Hair Free, Impurities Free, Metal Free, Glass Free *Max. Total Aflatoxin level (B1, B2, G1, G2) Ground Mace Siau/Ambon, Papua 1 Ground Mace min. 6% V.O. < 10ppb* / < 20 ppb* 2 Ground Mace min. 7% V.O. < 10ppb* / < 20 ppb* *Max. Total Aflatoxin level (B1, B2, G1, G2) Standard Powder Particle size 18 Mesh Other particle size available on request Steam sterilization provided in our factory upon request.
Whole Black Pepper 1 Indonesian Black Pepper 550 g/l machine cleaned 2 Indonesian Black Pepper 570 g/l ASTA Ground Black Pepper 1 Black Pepper powder (20 / 40 / 60 Mesh) 2 Black Pepper Table (Dustless 380/840 microns) 3 Black Pepper Coarse (Dustless 840/1500 microns) 4 Black Pepper Crushed (Dustless 1500/2000 microns) Whole White Pepper 1 Indonesian White Pepper 640 g/l Double washed 2 Indonesian White Pepper 640 g/l Single washed Ground White Pepper 1 White Pepper Powder (20 / 40 / 60 Mesh) Steam sterilization provided in our factory upon request.
Whole / Broken Nutmeg Siau/Ambon, Papua 1 Nutmeg BWP (Broken Wormed Punctured) 2 Nutmeg BWP Reconditioned (black & mold out) 3 Nutmeg SS (Sound Shrivels) < 10 ppb* / < 20 ppb* 4 Nutmeg Cracked UV Selected < 10 ppb* / < 20 ppb* 5 Nutmeg ABCD < 10 ppb* / 20 ppb* 6 Nutmeg ABCD calibrated < 10 ppb* / < 20 ppb* *Max. Total Aflatoxin level (B1, B2, G1, G2) Ground Nutmeg Siau/Ambon, Papua 1 Ground Nutmeg min. 4% V.O.** < 10ppb* / < 20 ppb* 2 Ground Nutmeg min. 5% V.O.** < 10ppb* / < 20 ppb* 3 Ground Nutmeg min. 6% V.O.** < 10ppb* / < 20 ppb* *Max. Total Aflatoxin level (B1, B2, G1, G2) **Higher V.O. available on request Standard powder particle size, 20 Mesh. Other particle size available on request Steam sterilization provided in our factory upon request.
Whole Cassia 1 Cassia Cut AA 6 / 7 / 8 cm (2,35 / 2,75 / 3 inch)* 2 Cassia Broken KBBC ISO & ASTA Markets*** 1,1%/ 1,5% / 1,75% V.O. 3 Cassia Broken KABC ISO & ASTA Markets*** 2% / 2,25% / 2,5% / 2,75% / 3% / 3,5% V.O.** *Other size available **Higher V.O. available on request ***ISO & ASTA MARKETS - V.O. - TESTING METHODS Ground Cassia 1 Ground Cassia 1% V.O. ISO & ASTA MARKETS** 2 Ground Cassia 1,5% V.O. ISO & ASTA MARKETS** 3 Ground Cassia 2% V.O. ISO & ASTA MARKETS** 4 Ground Cassia 2,5% V.O. ISO & ASTA MARKETS** *Higher V.O. available on request Standard Powder particle size 45 Mesh. Other particle size available on request. ***ISO & ASTA MARKETS - V.O. - TESTING METHODS Steam sterilization provided in our factory upon request.
Coconut briquette produce of 100% natural coconut charcoal shell. As a fuel, it is hotter and last longer than ordinary charcoal. Our production capacity reaches up to 100 tons per month to meet the needs of the world market. We produce and distribute a wide variety of charcoal briquettes in different parts of the world. Our briquettes are made from premium raw material, so it can produce the best specification for shisha/hookah. The ash content below 2,5%, calori value reach 7000 - 7500kcal, and the important thing is the color of it is white ash.
High-Quality material in Polyamide Tubing, Polyurethane, Polyethylene, Fluoropolymer Polyamide The success of polyamides is due to a combination of characteristics that make them ideal for many applications. Polyamides combine optimal mechanical properties with excellent chemical resistance; they can be used as metal substitutes or even as elastomers; they can be used in both protected and aggressive environments (UV rays, bad weather conditions, etc.); this is possible due to the numerous types of polyamides that manifest varied and specific characteristics. Polyurethane The term polyurethane encompasses a vast family of products with numerous varied characteristics in terms of mechanical, chemical and physical properties. Through the right choice and proportion of polyols and diisocyanates it is possible for products to range from soft and sponge-like, such as flexible foams with extremely low density (pillows, mattresses, etc.) to products with elevated resistance to compression and flexion stress (for applications in sporting goods, such as hiking boots, ski boots, etc.). In order to have a general guide regarding the characteristics of polyurethane, the primary distinctions to consider relate to its chemical nature, or rather, if it has an ester or ether base. In commerce there is also a third family of polyurethane, which derives from the synthesis of caprolactam, which exhibits intermediate characteristics between polyester and polyether. Fluoropolymer Increasingly more technical applications in aggressive environments, in terms of temperature, chemical agents and atmospheric conditions, made it possible for fluoropolymers to find more space on the market. These polymers offer extremely high performance, though at elevated costs regarding both raw materials and production. Depending on the bond between carbon and fluorine, and their arrangement in the molecular structure, one can have varying products with different characteristics. Concerning chemical resistance and use at low and high temperatures, the father of all fluoropolymers is PTFE, which demonstrates almost complete inertia towards most known chemical reagents and has work temperatures that range from -260 to +260 �?�°C. After PTFE, these other fluoropolymers can be found, in order of importance: PFA, FEP, and PVDF. Polyethylene Polyethylene, making up 40% of the total volume of plastic materials produced in the world, is one of the most diffused polymers in everyday life. Despite its simple chemical composition, there are numerous varieties of polyethylene with differing thermal and mechanical properties.
Solenoid valve for automatic watering using a metal body. Usable for various applications ranging from protected horticulture to golf courses and facility greening
Medium bore size (32 to 100) series of standard tie rod cylinders. Environment-friendly cylinder that has eliminated hazardous substances. Suitable for all applications with reliable performance and a wide variety of options.
Lightweight compact drain separator. The cyclone effect causes water droplets in the compressed air to strike the inner wall of the bowl; this gathers and enlarges them, removing 99% or more of the moisture. Ideal for easy drainage from air piping. [Applicable compressor: 0.75 kW to 37 kW]
Compact modular design in which major boundary dimensions of devices such as filters, regulators, lubricators, etc., are unified.
Generates high pressure air, double the primary pressure without electric power. Contributes to energy savings of the plant by utilizing existing compressed air equipment to boost pressure in areas where it is needed. Long service life components reduce total cost of plant.
Elbow speed control valve with push-in fitting. Piping screw is coated with sealant.
Push-in fitting for pneumatic piping. Compact size for space saving. Work environment and device-friendly flame-resistant white body.
Fluoropolymer Increasingly more technical applications in aggressive environments, in terms of temperature, chemical agents and atmospheric conditions, made it possible for fluoropolymers to find more space on the market. These polymers offer extremely high performance, though at elevated costs regarding both raw materials and production. Depending on the bond between carbon and fluorine, and their arrangement in the molecular structure, one can have varying products with different characteristics. Concerning chemical resistance and use at low and high temperatures, the father of all fluoropolymers is PTFE, which demonstrates almost complete inertia towards most known chemical reagents and has work temperatures that range from -260 to +260 'C. After PTFE, these other fluoropolymers can be found, in order of importance: PFA, FEP, and PVDF.
Polyethylene, making up 40% of the total volume of plastic materials produced in the world, is one of the most diffused polymers in everyday life. Despite its simple chemical composition, there are numerous varieties of polyethylene with differing thermal and mechanical properties.
Polyurethane The term polyurethane encompasses a vast family of products with numerous varied characteristics in terms of mechanical, chemical and physical properties. Through the right choice and proportion of polyols and diisocyanates it is possible for products to range from soft and sponge-like, such as flexible foams with extremely low density (pillows, mattresses, etc.) to products with elevated resistance to compression and flexion stress (for applications in sporting goods, such as hiking boots, ski boots, etc.). In order to have a general guide regarding the characteristics of polyurethane, the primary distinctions to consider relate to its chemical nature, or rather, if it has an ester or ether base. In commerce there is also a third family of polyurethane, which derives from the synthesis of caprolactam, which exhibits intermediate characteristics between polyester and polyether.
Polyamide The success of polyamides is due to a combination of characteristics that make them ideal for many applications. Polyamides combine optimal mechanical properties with excellent chemical resistance; they can be used as metal substitutes or even as elastomers; they can be used in both protected and aggressive environments (UV rays, bad weather conditions, etc.); this is possible due to the numerous types of polyamides that manifest varied and specific characteristics.
Normal Paraffin (NP) is a clear liquid that are made up of saturated hydrocarbons with a straight-chain structure. They are either extracted from kerosene or through the Fischer-Tropsch process at gas-to-liquid production sites. Paraffin (or called kerosene) is a mixture of hydrocarbons; it usually consists of about 10 different hydrocarbons, each containing from 10 to 16 carbon atoms per molecule; the constituents include n-dodecane, alkyl benzene, and naphthalene and its derivatives. Kerosene is obtained from crude oil by distillation and is used as a fuel for heating and aircraft. N-paraffin C10-C13 is a colorless liquid with a mild odor. It is insoluble in water. It is slow-evaporating, environmentally adapted (fully bio-degradable) with negligible sooting (like lamp oil). Normal Paraffin is the major raw material for the manufacture of the LAB. Normal Paraffin is extracted from kerosene which contains an average of 20/25% paraffin and therefore is generally produced close to a refinery as the kerosene, free of the paraffin removed has to be returned to the refinery. Over 80% of Normal Paraffin is used for the production of the LAB the remaining N-Paraffin may be further processed to obtain special solvents used for various industrial applications including synthetic resins, paints and varnishes, degreasing agents and printing inks. Normal paraffin operates as a dissolver in industrial for producing polymers and resins, colors, artistic coverings and grease polisher.
Rice polish is a by-product of rice obtained in the milling operation of brushing the grain to polish the kernel, after the hull and bran have been removed. Rice polish can be used as a part of concentrates for dairy cattle, beef cattle and sheep. This is also the cheapest source of energy and protein for poultry feeding. The oil content of rice polish varies from 13-19%. The crude protein ranges from 13-16% and TDN from 70-90% depending on the oil content. Rice polish supplies as much TDN as maize. It is a good source of proteins, energy, vitamins and minerals for farm animals. It also contains better assortment of amino acids, particularly lysine and methionine, compared to other cereal grains, including maize and wheat. The phosphorus content is high (1.30%) in rice polish and calcium content is low. Though much of the phosphorus exists as phytate phosphorus, rumen microorganism can digest phytate phosphorus. Rice polish contains factors which promote rancidity, especially under the warm humid climatic conditions that favour auto-oxidation. These include lipoxidases, which are enzymes that promote oxidation of unsaturated fatty acids. Rancid feeds are unpalatable and potentially toxic. Heat treatment may improve its utilization especially in non-ruminants by inactivating lipoxidases and trypsin inhibitors
