TRENDING NOW

Perkenankan kami PT. Baja Bahana Utama adalah produsen baja ringan dan mempunyai distributor yang tersebar ke seluruh Indonesia, sedangkan Baja ringan adalah baja canai dingin yang keras yang diproses kembali komposisi atom dan molekulnya, sehingga menjadi baja yang lebih fleksibel. Saat ini baja ringan menjadi material bangunan yang sedang trend, rangka atap baja ringan lebih dominan terkenal dibanding material baja ringan untuk struktur lainnya. Hal ini karena gencarnya iklan-iklan yang menawarkan produk rangka atap baja ringan menggantikan rangka atap dari material kayu. Mengingat kayu semakin hari semakin langka juga karena harga kayu yang relatif mahal, maka pemilihan material rangka atap baja ringan menjadi satu pilihan para kontraktor atau owner dalam membangun rumah. Selain karena faktor keawetan dan tahan rayap dan karat, rangka atap baja ringan mempunyai kelebihan yaitu kekuatan struktur yang lebih bagus, seperti lebih kuat, lebih kaku dibanding konstruksi kayu.
Disamping itu kemudahan dalam mendapatkan, kecepatan pemasangan, dan struktur yang kuat membuat rangka atap baja ringan terkenal. Teknologi dalam perencanaan dan pemasangan rangka atap baja ringan beragam sesuai dengan profil dari elemen kuda-kuda itu sendiri. Profil kuda-kuda rangka atap baja ringan yang beredar di pasaran terdiri dari C, Z, hollow dan UK atau profil Omega atau HAT. Tiap profil memiliki kelebihan-kelebihan serta perbedaan prinsip dalam dalam pemasangannya.
Elemen dasar Baja Ringan
Rangka atap baja ringan yang diproduksi di Indonesia menggunakan bahan dasar baja dengan kekuatan G-550 Mpa atau setara dengan 5500 Megapascal sesuai standar AISI (American Iron and Steell Institute). Adapun coating (pelapis/pelindung) baja ringan dari karat yang beredar adalah zinc/galvanis, zincalume, dan zincalume dengan penambahan magnesium. Lapisan coating ini melindungi bahan dasar baja ringan dari karat.
Baja Ringan Ramah Lingkungan
Baja ringan terbaik diklaim memiliki sifat yang ramah lingkungan, karena menggunakan material yang bisa mengurangi pembalakan liar (illegal logging). Tidak jarang juga kita menemui brosur rangka atap baja ringan dengan kode ekolabel atau ramah lingkungan, label yang menjelaskan produk yang dijual adalah ramah terhadap lingkungan. Namun apakah benar ramah lingkungan? Untuk mengetahui hal itu, baiknya kita ketahui produk yang berlabel ramah lingkungan atau ekolabel.
Dalam situs Kementrian Lingkungan Hidup Indonesia (www.menlh.go.id) dilansir bahwa Ekolabel merupakan salah satu sarana penyampaian informasi yang akurat,‘verifiable’ dan tidak menyesatkan kepada konsumen mengenai aspek lingkungan dari suatu produk (barang atau jasa), komponen atau kemasannya. Pemberian informasi tersebut pada umumnya bertujuan untuk mendorong permintaan dan penawaran produk ramah lingkungan di pasar yang juga mendorong perbaikan lingkungan secara berkelanjutan.
Penutup
Para Produsen baja ringan atau Perbaikan Rumah memikirkan tentang ramah lingkungan, ataupun recyclibility dalam penggunaan material baja ringan harus dipertegas kembali. Hendaknya setiap produsen dapat menjelaskan kepada konsumen tentang konsep tersebut, apakah karena material yang tidak akan menyisakan sampah? Atau bahan-bahan sisa yang bisa di recycle menjadi bahan lain yang berguna?
Walaupun demikian Jika di telusuri lebih jauh, secara umum BAJA RINGAN mungkin saja bisa mengurangi pembalakan liar karena bisa meminimalisir bahkan cenderung menghilangkan penggunaan material kayu dalam konstruksinya. Tapi sesuai dengan prinsip ekolabel bahwa produk yang diberi ekolabel selayaknya adalah produk yang dalam daur hidupnya mulai dari pengadaan bahan baku, proses produksi, pendistribusian, penggunaan, dan pembuangan setelah penggunaan, memberi dampak lingkungan relatif lebih kecil dibandingkan produk lain yang sejenis. Mudah-mudahan saja baja ringan menjadi alternatif penggunaan material bangunan masa depan yang lebih bisa diterima lingkungan karena daur hidupnya yang memberikan dampak yang kecil.

Baja Ringan Jakarta

Baja ringan adalah baja yang berkualitas tinggi dan ringan, namun  kekuatan baja tersebut tidak kalah dengan baja konvensional. Ketebalan pada baja ringan ditentukan oleh fungsinya. Penggunaannya belum polpuler di Indonesia. Sehingga banyak masyarakat Indonesia yang enggan untuk menggunakan. Padahal sebenarnya, rangka ini sangat cocok untuk digunakan di wilayah Indonesia yang cenderung rawan terjadinya gempa.
baja-ringan
Kenapa harus menggunakan BAJA RINGAN, berikut 6 alasan nya
Berikut 6 alasan utama tersebut,
  1. Tidak akan dimakan rayap. Seperti kita ketahui, kualitas kayu yang banyak digunakan maupun yang ada di pasaran saat ini adalah kayu dengan kualitas 3 kebawah atau kurang baik. Tidak banyak lagi, bahkan sudah sangat jarang yang menyediakan atau menggunakan kayu kualitas bagus seperti kayu jati untuk membangun sebuah bangunan. Oleh karena itu, pemilihan merupakan hal mutlak jika rangka anda ingin memiliki usia yang lebih awet
  2. Akan mempercepat durasi atau waktu pengerjaan suatu bangunan. Baja ringan yang sudah siap pasang tentunya akan banyak menghemat waktu pengerjaan berbagai proyek bangunan yang anda kerjakan. Bahkan sebuah rumah dengan type 36 bisa diseslesaikan dalam waktu kurang lebih 1 minggu dengan menggunakan rangka baja ringan.
  3. Struktur lebih ringan daripada jika anda menggunakan kayu sebagai rangka atap anda. Tentunya hal ini bisa mempermudah pengerjaan dan keamanan para pekerja anda lebih terjamin.
  4. Hemat biaya.  tidak mudah lapuk. Bayangkan berapa banyak uang yang bisa Anda hemat dengan fitur baja ringan ini terutama dalam segi biaya perawatan bangunan anda kedepanya. Selain itu, menurut beberapa hasil survei yang ada,rumah type 42 yang dibangun dengan struktur atap baja ringan dan dinding bata, bisa dihemat biaya pembuatanya hingga di kisaran angka 31jutaan saja (sudah termasuk biaya penutup atap dan diluar pondasi tentunya ). Amazing bukan…:)
  5. Memiliki struktur atau material yang bisa disesuaikan dengan keadaan geografis sebuah daerah. Misalkan bangunan Anda berada di pinggir laut atau pantai, maka rangka baja ringan yang anda gunakan akan dilapisi dengan bahan tertentu yang akan menyesuaikan dengan kontur wilayah pantai ( tidak mudah berkarat tentunya ). Apakah material kayu anda memiliki kelebihan ini? saya rasa belum
  6. Untuk menjaga lingkungan. Seperti yang kita tahu bahwa hutan di Indonesia tidak sehijau dahulu kala akibat pembalakan liar. Oleh karena itu dengan kita menggunakan atap baja ringan itu sama saja ikut menjaga lingkungan kita yang sudah terlanjur rusak tidak menjadi lebih parah lagi.
Baja Ringan

Perbandingan Atap Baja Ringan & kayu

Perbandingan antara pemakaian kerangka atap baja ringan dan kayu.
Teknologi baja ringan di Indonesia yang semakin berkembang mampu memberikan rangka atap rumah dari kayu berubah menjadi kerangka atap dari baja ringan nampaknya makin diminati masyarakat secara luas bahkan sampai ke pelosok pelosok daerah banyak menggunakan alternatif pengganti kerangka atap yang tadinya kayu diganti dengan dari bahan baja ringan, berbagai pertimbangan dilakukan untuk  menjadi alasan lebih memilih menggunakan pemasangan, sebenarnya diperlukan metode atau struktur yang baik agar mendapatkan hasil konstruksi atau kuda kuda  yang baik dan memuaskan. Berikut ini saya coba uraikan sedikit gambaran bagaimana perbandingan atau perbedaan penggunaan kerangka dengan penggunaan dari kayu sebelum kita memutuskan untuk menggunakan nya.
Dalam beberapa kondisi perbedaan atau perbandingan rangka atap baja ringan dan menggunakan kayu sebagai berikut :
  • Mudah didapat didaerah perkotaan besar bahkan saat ini sudah banyak juga penjualan material nya di kota kecil.
  • Konstruksi lebih ringan, tahan lebih lama serta biaya lebih murah dalam perawatannya.
  • Bebas dari hama penggangu seperti rayap atau jamur.
  • Membutuhkan perhitungan secara cermat dan teliti untuk menentukan diminsi yang kuat efisien dengan biaya yang lebih murah.
  • Mudah dalam pemasangan karena sudah di fabrikasi oleh teknisi (tukang) yang berpengalaman sebelum dilakukan pemasangan juga dengan bentuk profil yang memang sudah disesuaikan dengan kebutuhan dilapangan.
  • Diperlukan tenaga kerja / tenisi dengan dengan keahlian khusus untuk dapat menghasilkan pemasangan struktur & konstruksi baja ringan yang benar dan hasil yang memuaskan
Rangka atap kayu :
  • Terbatasnya jumlah kayu berkualitas yang dapat dipergunakan sebagai bahan bangunan atap sebagai rangka atap yang juga kita perlu melestarikan lingkungan hidup menjadikan baja ringan menjadi alternatif pilihan utama saat ini sebagai rangka atap rumah.
  • Tidak tahan terhadap ham apemangsa seperti rayap & jamur yang menyebabkan berkurangnya dimensi kayu dan pelapukan yang ditimbulkan karena proses alam yang menyebabkan berkurangnya juga kekuatan konstruksi atap rumah.
  • Metode pemasangan rangka kayu cukup mudah bisa hanya diperlukan tenaga tukang bangunan yang sudah terlatih bisa mengerjakan pemasangannya.
  • Memerlukan upaya pengawetan khusus sebelum dipasang agar rangka atap bisa bertahan lama sehingga membuat bertambahnya biaya pemeliharaan yang tidak murah bahkan tidak efisien dibanding rangka dari baja ringan.
  • Konstruksi kayu mempunyai beban yang berat.
  • Kwalitas dari setiap kayu menyesuaikan dari kekuatan rangka yang dipasang.
Demikian sedikit uraian / gambaran perbandingan apabila kita memilih menggunakan rangka atap dari baja ringan atau dari bahan kayu, semoga bermanfaat.
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Briquettes
A briquette (or briquet) is a compressed block of coal dust or other combustible biomass material such as charcoal, sawdust, wood chips,  peat, or paper used for fuel and kindling to start a fire. The term comes from the French language and is related to brick.
Constituents of charcoal briquettes
Charcoal briquettes sold for cooking food can include:[3][4]
·         Wood charcoal (fuel)
·         Lignite coal (fuel)
·         Anthracite coal (fuel)
·         Limestone (ash colourant)
·         Starch (binder)
·         Borax (release agent)
·         Sodium nitrate (accelerant)
·         Sawdust
·         Wax (some brands: binder, accelerant, ignition facilitator).
·         Chaff (rice chaff and peanut chaff)
Some briquettes are compressed and dried brown coal extruded into hard blocks. This is a common technique for low rank coals. They are typically dried to 12-18% moisture, and are primarily used in household and industry.
Peat briquettes
In Ireland, peat briquettes are a common type of solid fuel, largely replacing sods of raw peat as a domestic fuel. These briquettes consist of shredded peat, compressed to form a virtually smokeless, slow-burning, easily stored and transported fuel. Although often used as the sole fuel for a fire, they are also used to quickly and easily light a coal fire.
Biomass briquettes
Biomass briquettes are made from agricultural waste and are a replacement for fossil fuels such as oil or coal, and can be used to heat boilers in manufacturing plants, and also have applications in developing countries. Biomass briquettes are a renewable source of energy and avoid adding fossil carbon to the atmosphere.
A number of companies in India have switched from furnace oil to biomass briquettes to save costs on boiler fuels. The use of biomass briquettes is predominant in the southern parts of India, where coal and furnace oil are being replaced by biomass briquettes. A number of units in Maharashtra (India) are also using biomass briquettes as boiler fuel. Use of biomass briquettes can earn Carbon Credits for reducing emissions in the atmosphere. Lanxess India and a few other large companies are supposedly using biomass briquettes for earning Carbon Credits by switching their boiler fuel. Biomass briquettes also provide more calorific value/kg and save around 30-40 percent of boiler fuel costs.
A popular biomass briquette emerging in developed countries takes a waste produce such as sawdust, compresses it and then extrudes it to make a reconsistuted log that can replace firewood. It is a similar process to forming a wood pellet but on a larger scale. There are no binders involved in this process. The natural lignin in the wood binds the particles of wood together to form a solid. Burning a wood briquette is far more efficient than burning firewood. Moisture content of a briquette can be as low as 4%, whereas green firewood may be as high as 65%.
The extrusion production technology of briquettes is the process of extrusion screw wastes (straw, sunflower husks, buckwheat, etc.) or finely shredded wood waste (sawdust) under high pressure when heated from 160 to 350 C °. As shown in the table above the quality of such briquets, especially heat content, is much higher comparing with other methods like using piston presses.

Sawdust briquettes have developed over time with two distinct types: those with holes through the centre, and those that are solid. Both types are classified as briquettes but are formed using different techniques. A solid briquette is manufactured using a piston press that compresses sandwiched layers of sawdust together. Briquettes with a hole are produced with a screw press. The hole is from the screw thread passing through the centre, but it also increases the surface area of the log and aids efficient combustion.
Use in China
Throughout China, cylindrical briquettes, called "fēng wō méi" (beehive coal 蜂窩煤 / 窝煤) or "Mei" (coal ) or "liàn tàn" (kneaded coal 練炭 / 练炭), are used in purpose-built cookers. The origin of "Mei" is "Rentan" (kneaded coal 練炭) of Japan. Rentan was invented in Japan in the 19th century, and spread to Manchukuo, Korea and China in the first half of the 20th century. There were many Rentan factories in Manchukuo and Pyongyang. Although Rentan went out of use in Japan after the 1970s, it is still popular in China, Korea ("yeon tan" kneaded coal 연탄) and Vietnam ("than" coal).
The cookers are simple, ceramic vessels with metal exteriors. Two types are made: the single, or triple briquette type, the latter holding the briquettes together side by side. These cookers can accommodate a double stack of cylinders. A small fire of tinder is started, upon which the cylinder(s) is placed. When a cylinder is spent, another cylinder is placed on top using special tongs, with the one below igniting it. The fire can be maintained by swapping spent cylinders for fresh ones, and retaining a still-glowing spent cylinder.
Each cylinder lasts for over an hour. These cookers are used to cook, or simmer, pots of tea, eggs, soups, stews, etc. The cylinders are delivered, usually by cart, to businesses, and are very inexpensive.
Paper briquettes
Paper briquettes are the byproduct of a briquettor, which compresses shredded paper material into a small cylindrical form. Briquettors are often sold as add-on systems to existing disintegrator or rotary knife mill shredding systems. The NSA has a maximum particle size regulation for shredded paper material that is passed through a disintegrator or rotary knife mill, which typically does not exceed 1/8” square.[5] This means that material exiting a disintegrator is the appropriate size for compression into paper briquettes, as opposed to strip-cut shredders which produce long sheets of paper.
After being processed through the disintegrator, paper particles are typically passed through an air system to remove dust and unwanted magnetic materials before being sent into the briquettor. The air system may also be responsible for regulating moisture content in the waste particles, as briquetting works optimally within a certain range of moisture. Studies have shown that the optimal moisture percentage for shredded particles is 18% for paper and 22% for wheat straw.[6]
Environmental Impact
Briquetted paper has many notable benefits, many of which minimize the impact of the paper waste generated by a shredding system. Several manufactures claim up to 90% volume reduction of briquetted paper waste versus traditional shredding. Decreasing the volume of shredded waste allows it to be transported and stored more efficiently, reducing the cost and fuel required in the disposal process.
In addition to the cost savings associated with reducing the volume of waste, paper briquettes are more useful in paper mills to create recycled paper than uncompressed shredded material. Compressed briquettes can also be used as a fuel for starting fires or as an insulating material.
Charcoal
Charcoal is a light, black residue, consisting of carbon and any remaining ash, obtained by removing water and other volatile constituents from animal and vegetation substances. Charcoal is usually produced by slow pyrolysis, the heating of wood or other substances in the absence of oxygen (see char and biochar). It is usually an impure form of carbon as it contains ash; however, sugar charcoal is among the purest forms of carbon readily available, particularly if it is not made by heating but by a dehydration reaction with sulfuric acid to minimise the introduction of new impurities, as impurities can be removed from the sugar in advance. The resulting soft, brittle, lightweight, black, porous material resembles coal
History
Historically, production of wood charcoal in locations where there is an abundance of wood dates back to a very ancient period, and generally consists of piling billets of wood on their ends so as to form a conical pile, openings being left at the bottom to admit air, with a central shaft to serve as a flue. The whole pile is covered with turf or moistened clay. The firing is begun at the bottom of the flue, and gradually spreads outwards and upwards. The success of the operation depends upon the rate of the combustion. Under average conditions, 100 parts of wood yield about 60 parts by volume, or 25 parts by weight, of charcoal; small-scale production on the spot often yields only about 50%, large-scale was efficient to about 90% even by the seventeenth century. The operation is so delicate that it was generally left to colliers (professional charcoal burners). They often lived alone in small huts in order to tend their wood piles. For example, in the Harz Mountains of Germany, charcoal burners lived in conical huts called Köten which are still much in evidence today[when?].
The massive production of charcoal (at its height employing hundreds of thousands, mainly in Alpine and neighbouring forests) was a major cause of deforestation, especially in Central Europe. In England, many woods were managed as coppices, which were cut and regrew cyclically, so that a steady supply of charcoal would be available (in principle) forever; complaints (as early as the Stuart period) about shortages may relate to the results of temporary over-exploitation or the impossibility of increasing production to match growing demand. The increasing scarcity of easily harvested wood was a major factor behind the switch to fossil fuel equivalents, mainly coal and brown coal for industrial use.
The use of charcoal as a smelting fuel has been experiencing a resurgence in South America following Brazilian law changes in 2010 to reduce carbon emissions as part of President Lula da Silva's commitment to make a "green steel".[2][3]
The modern process of carbonizing wood, either in small pieces or as sawdust in cast iron retorts, is extensively practiced where wood is scarce, and also for the recovery of valuable byproducts (wood spirit, pyroligneous acid, wood tar), which the process permits. The question of the temperature of the carbonization is important; according to J. Percy, wood becomes brown at 220 °C (428 °F), a deep brown-black after some time at 280 °C (536 °F), and an easily powdered mass at 310 °C (590 °F).[4] Charcoal made at 300 °C (572 °F) is brown, soft and friable, and readily inflames at 380 °C (716 °F); made at higher temperatures it is hard and brittle, and does not fire until heated to about 700 °C (1,292 °F).
In Finland and Scandinavia, the charcoal was considered the by-product of wood tar production. The best tar came from pine, thus pinewoods were cut down for tar pyrolysis. The residual charcoal was widely used as substitute for metallurgical coke in blast furnaces for smelting. Tar production led to rapid deforestation: it has been estimated all Finnish forests are younger than 300 years. The end of tar production at the end of the 19th century resulted in rapid re-forestation.
The charcoal briquette, made commercially using mostly compressed coal dust, was first invented and patented by Ellsworth B. A. Zwoyer of Pennsylvania in 1897[5] and was produced by the Zwoyer Fuel Company. The process was further popularized by Henry Ford, who used wood and sawdust byproducts from automobile fabrication as a feedstock. Ford Charcoal went on to become the Kingsford Company.
Production methods
Charcoal has been made by various methods. The traditional method in Britain used a clamp. This is essentially a pile of wooden logs (e.g. seasoned oak) leaning against a chimney (logs are placed in a circle). The chimney consists of 4 wooden stakes held up by some rope. The logs are completely covered with soil and straw allowing no air to enter. It must be lit by introducing some burning fuel into the chimney; the logs burn very slowly and transform into charcoal in a period of 5 days' burning. If the soil covering gets torn (cracked) by the fire, additional soil is placed on the cracks. Once the burn is complete, the chimney is plugged to prevent air from entering.[6] The true art of this production method is in managing the sufficient generation of heat (by combusting part of the wood material), and its transfer to wood parts in the process of being carbonised. A strong disadvantage of this production method is the huge amount of emissions that are harmful to human health and the environment (emissions of unburnt methane).[7] As a result of the partial combustion of wood material, the efficiency of the traditional method is low.
Improved methods use a sealed metal container, as this does not require watching lest fire break through the covering.[8] However, on-site attendance is required, and also this method sacrifices part of the material for generating process heat - with the associated low yield. At Bulworthy Project in the UK, charcoal production supports an experiment in low-impact living and nature conservation.[9] Modern methods employ retorting technology, in which process heat is recovered from, and solely provided by, the combustion of gas released during carbonisation. (Illustration:[10]). Yields of retorting are considerably higher than those of kilning, and may reach 35%-40%.
Examples of large industrial, but clean, industrial technologies are the Lambiotte shaft furnace, and the Reichert retort.[11] A recently developed technology is the Condensing Retort developed by Clean Fuels.[12] This latter technology is suitable for medium to large industries.
The last section of the film Le Quattro Volte (2010) gives a good and long, if poetic, documentation of the traditional method of making charcoal.[13] The Arthur Ransome children's series Swallows and Amazons (particularly the second book Swallowdale) features carefully drawn vignettes of the lives and the techniques of charcoal burners at the start of the 20th century, in the Lake District of the UK.
The properties of the charcoal produced depend on the material charred. The charring temperature is also important. Charcoal contains varying amounts of hydrogen and oxygen as well as ash and other impurities that, together with the structure, determine the properties. The approximate composition of charcoal for gunpowders is sometimes empirically described as C7H4O. To obtain a coal with high purity, source material should be free of non-volatile compounds (sugar and a high charring temperature can be used). After charring, partial oxidation with oxygen or chlorine can reduce hydrogen levels. For activation of charcoal see activated carbon.
Common charcoal is made from peat, coal, wood, coconut shell, or petroleum. “Activated charcoal” is similar to common charcoal, but is made especially for use as a medicine. To make activated charcoal, manufacturers heat common charcoal in the presence of a gas that causes the charcoal to develop lots of internal spaces or “pores.” These pores help activated charcoal “trap” chemicals.
Types
Commercial charcoal is found in either lump, briquette, or extruded forms:
·         Lump charcoal is made directly from hardwood material and usually produces far less ash than briquettes.
·         Pillow shaped briquettes are made by compressing charcoal, typically made from sawdust and other wood by-products, with a binder and other additives. The binder is usually starch. Some briquettes may also include brown coal (heat source), mineral carbon (heat source), borax, sodium nitrate (ignition aid), limestone (ash-whitening agent), raw sawdust (ignition aid), and other additives.
·         Hexagonal sawdust briquette charcoal are made by compressing sawdust without binders or additives. Hexagonal Sawdust Briquette Charcoal is the preferred charcoal in countries like Taiwan, Korea, Middle East, Greece. It has a round hole through the center, with a hexagonal intersection. Mainly for barbeque uses as it does not emit odor, no smoke, little ash, high heat, and long burning hours (exceeding 4 hours).
·         Extruded charcoal is made by extruding either raw ground wood or carbonized wood into logs without the use of a binder. The heat and pressure of the extruding process hold the charcoal together. If the extrusion is made from raw wood material, the extruded logs are then subsequently carbonized.[14]
·         Japanese charcoal removes pyroligneous acid during the charcoal making. Therefore, when burning, there are almost no stimulating smells or smoke. The charcoal of Japan is classified into three kinds.
1.       White charcoal (Binchōtan) is very hard and has a metallic sound.
2.       Black charcoal
3.       Ogatan is made from hardened sawdust. It is most often used in Izakaya or Yakiniku restaurants.
The characteristics of charcoal products (lump, briquette, or extruded forms) vary widely from product to product. Thus it is a common misconception to stereotype any kind of charcoal, saying which burns hotter or longer etc
Uses
Charcoal has been used since earliest times for a large range of purposes including art and medicine, but by far its most important use has been as a metallurgical fuel. Charcoal is the traditional fuel of a blacksmith's forge and other applications where an intense heat is required. Charcoal was also used historically as a source of carbon black by grinding it up. In this form charcoal was important to early chemists and was a constituent of formulas for mixtures such as black powder. Due to its high surface area charcoal can be used as a filter, and as a catalyst or as an adsorbent
Metallurgical fuel
Charcoal burns at intense temperatures, up to 2,700 °C (4,890 °F).[verification needed] By comparison the melting point of iron is approximately 1,200 to 1,550 °C (2,190 to 2,820 °F). Due to its porosity it is sensitive to the flow of air and the heat generated can be moderated by controlling the air flow to the fire. For this reason charcoal is an ideal fuel for a forge and is still widely used by blacksmiths. Charcoal is also an excellent reducing fuel for the production of iron and has been used that way since Roman times. In the 16th century England had to pass laws to prevent the country from becoming completely denuded of trees due to production of iron. In the 19th century charcoal was largely replaced by coke, baked coal, in steel making due to cost. Charcoal is a far superior fuel to coke,[verification needed] however, because it burns hotter and has no sulfur. Until World War II charcoal was still being used in Sweden to make ultra high-quality steel. In steel-making, charcoal is not only a fuel, but a source for the carbon in the steel according to some scholars such as Moronda, 2011.
After the 2009 United Nations Climate Change Conference (COP15) in Copenhagen, Denmark, the steel industry in Brazil proposed to replace coal and coke with charcoal in their high temperature furnaces. The program "Green Steel for the Brazilian Steel Industry" converted wood from Eucalyptus plantations into charcoal that will be used in steel making.[16]
Industrial fuel
Historically, charcoal was used in great quantities for smelting iron in bloomeries and later blast furnaces and finery forges. This use was replaced by coke in the 19th Century as part of the Industrial Revolution. For this purpose, charcoal in England was measured in dozens (or loads) consisting of 12 sacks or shems or seams, each of 8 bushels.[citation needed] In 2010, Japan Consulting Institute took an action in search of a better, 'greener', and even cheaper alternative to replace fossil fuels like coke in steelmaking. The research revealed that Palm Kernel Shell charcoal (PKS charcoal) is proven to be a better fuel in Electric arc furnace (EAF) as coke replacement.[17] As auxiliary energy in EAF, in many aspects, PKS charcoal outperforms coke
Cooking fuel
Prior to the industrial revolution charcoal was occasionally used as a cooking fuel. Modern "charcoal briquettes" are widely used for outdoor dutch ovens, grilling, and barbecues in backyards and on camping trips, but the briquettes are not pure charcoal.[19] They are usually a compacted mixture of sawdust with additives like coal or coke and various binders.
Syngas production, automotive fuel
Like many other sources of carbon, charcoal can be used for the production of various syngas compositions; i.e., various CO + H2 + CO2 + N2 mixtures. The syngas is typically used as fuel, including automotive propulsion, or as a chemical feedstock.
In times of scarce petroleum, automobiles and even buses have been converted to burn wood gas (a gas mixture consisting primarily of diluting atmospheric nitrogen, but also containing combustible gasses, mostly carbon monoxide) released by burning charcoal or wood in a wood gas generator. In 1931 Tang Zhongming developed an automobile powered by charcoal, and these cars were popular in China until the 1950s. In occupied France during World War II, wood and wood charcoal production for such vehicles (called gazogènes) increased from pre-war figures of approximately fifty thousand tons a year to almost half a million tons in 1943.[20]
Black powder
Charcoal (in the majority of black powder mixtures, together with sulphur) is the fuel component of black powder and blasting powders and is also used in other pyrotechnic mixtures.[21] This charcoal is usually made from specific softwoods (i.e. willow and grapevine) charred at low temperature.[citation needed]
Carbon source
Charcoal may be used as a source of carbon in chemical reactions. One example of this is the production of carbon disulphide through the reaction of sulfur vapors with hot charcoal. In that case the wood should be charred at high temperature to reduce the residual amounts of hydrogen and oxygen that lead to side reactions.
Purification and filtration
Charcoal may be activated to increase its effectiveness as a filter. Activated charcoal readily adsorbs a wide range of organic compounds dissolved or suspended in gases and liquids. In certain industrial processes, such as the purification of sucrose from cane sugar, impurities cause an undesirable color, which can be removed with activated charcoal. It is also used to absorb odors and toxins in gases, such as air. Charcoal filters are also used in some types of gas masks. The medical use of activated charcoal is mainly the absorption of poisons, especially in the case of suicide attempts in which the patient has ingested a large amount of a drug.[22] Activated charcoal is available without a prescription, so it is used for a variety of health-related applications. For example, it is often used to reduce discomfort (and embarrassment) due to excessive gas (commonly known as a fart or flatulence) in the digestive tract.
Animal charcoal or bone black is the carbonaceous residue obtained by the dry distillation of bones. It contains only about 10% carbon, the remainder being calcium and magnesium phosphates (80%) and other inorganic material originally present in the bones. It is generally manufactured from the residues obtained in the glue and gelatin industries. Its decolorizing power was applied in 1812 by Derosne to the clarification of the syrups obtained in sugar refining; but its use in this direction has now greatly diminished, owing to the introduction of more active and easily managed reagents. It is still used to some extent in laboratory practice. The decolorizing power is not permanent, becoming lost after using for some time; it may be revived, however, by washing and reheating. Wood charcoal also to some extent removes coloring material from solutions, but animal charcoal is generally more effective.[citation needed]
Art
Four sticks of vine charcoal and four sticks of compressed charcoal
Two charcoal pencils in paper sheaths that are unwrapped as the pencil is used, and two charcoal pencils in wooden sheaths
·         Main article: Charcoal
·         Charcoal is used in art for drawing, making rough sketches in painting and is one of the possible media for making a parsemage. It must usually be preserved by the application of a fixative. Artists generally utilize charcoal in three forms:
·         Vine charcoal is created by burning sticks of wood (usually willow or linden/Tilia) into soft, medium, and hard consistencies.
Powdered charcoal is often used to "tone" or cover large sections of a drawing surface. Drawing over the toned areas darkens it further, but the artist can also lighten (or completely erase) within the toned area to create lighter tones.
Compressed charcoal charcoal powder mixed with gum binder compressed into round or square sticks. The amount of binder determines the hardness of the stick.[25] Compressed charcoal is used in charcoal pencils.
Horticulture
One additional use of charcoal was rediscovered recently in horticulture. Although American gardeners have been using charcoal for a short while, research on Terra preta soils in the Amazon has found the widespread use of biochar by pre-Columbian natives to turn unproductive soil into carbon rich soil. The technique may find modern application, both to improve soils and as a means of carbon sequestration.
Medicine
Charcoal was consumed in the past as dietary supplement for gastric problems in the form of charcoal biscuits. Now it can be consumed in tablet, capsule or powder form, for digestive effects.[citation needed] Research regarding its effectiveness is controversial.[27] To measure the mucociliary transport time the use was introduced by Passali in combination with saccharin
Red colobus monkeys in Africa have been observed eating charcoal for the purposes of self-medication. Their leafy diets contain high levels of cyanide, which may lead to indigestion. So they learned to consume charcoal, which absorbs the cyanide and relieves indigestion. This knowledge about supplementing their diet is transmitted from mother to infant.[29]
Also, see Activated charcoal, medicinal applications.
Smoking
Special charcoals are used in smoking the hookah. Lit charcoals are placed on top of foil that is placed over the tobacco bowl. The charcoals "cook" the tobacco to a temperature that does not burn it but produces smoke. Normally, charcoal for hookah or shisha smoking must be hard, high density, easy to ignite, and burn longer with persistent heat.[30]
Charcoals used for smoking hookah are manufactured using multiple materials from natural charcoal, coconut coals, and less exotic woods such as oak.[31]
Environmental implications

Charcoal production at a sub-industrial level is one of the causes of deforestation. Charcoal production is now usually illegal and nearly always unregulated as in Brazil where charcoal production is actually a huge illegal industry for making pig iron.[32][33][34] Massive forest destruction has been documented in areas such as Virunga National Park in the Democratic Republic of Congo, where it is considered a primary threat to the survival of the mountain gorillas.[35] Similar threats are found in Zambia.[36] In Malawi, illegal charcoal trade employs 92,800 workers and is the main source of heat and cooking fuel for 90 percent of the nation’s population.[37] Some experts, such as Duncan MacQueen, Principal Researcher–Forest Team, International Institute for Environment and Development (IIED), argue that while illegal charcoal production causes deforestation, a regulated charcoal industry that required replanting and sustainable use of the forests "would give their people clean efficient energy – and their energy industries a strong competitive advantage."

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