青酸 化学特性,用途語,生産方法
性質
シアン化水素の水溶液。俗称青酸。ヘキサシアノ鉄(Ⅱ)酸カリウムK4[Fe(CN)6]を希硫酸とともに蒸留する。きわめて弱い酸で、シアン化カリウムの水溶液は加水分解のため強いアルカリ性を示す。水溶液は徐々に分解してギ酸アンモニウムを生じる。青酸ともいう.シアン化水素HCNの水溶液のこと.リトマスも赤変しないくらいの弱酸(pKa 約9.2)である.低温でも徐々に加水分解する.アルカリ金属塩水溶液は加水分解のため,強アルカリ性を示す.
用途
アクリロニトリル、アクリル酸樹脂、乳酸、その他の有機合成原料、蛍光染料原料、農薬(柑橘や苗木のカイガラムシ駆除)、殺ソ剤原料、冶金、鉱業用
用途
シアン化合物(HCN, (CN)2など)は猛毒であるが、保安技術の進歩に伴って、アルデヒドやニトリルなどの有機合成、果樹の害虫駆除剤、金・銀などの電気精錬、めっき工業などに広く利用されている。青酸, その存在は、ピクリン酸‐炭酸ナトリウム試験紙が黄色から紫色に変色するか、ベンジジン‐酢酸銅試験紙が青色に着色することによってわかる。
説明
Hydrocyanic acid, HCN, is corrosive in addition to toxic. It is also a dangerous fire and explosion risk. It has a wide flammable range of 6%–41% in air. The boiling point is 79°F (26°C), the flash point is 0°F, and the ignition temperature is 1004°F (540°C). It is toxic by inhalation and ingestion and through skin absorption. The TLV of hydrocyanic acid is 10 ppm in air. It is used in the manufacture of acrylonitrile, acrylates, cyanide salts, dyes, rodenticides, and other pesticides.
化学的特性
Water-white liquid at temperatures
below 26.5C; faint odor of bitter almonds. Usual
commercial material is 96–99% pure.Soluble in
water. The solution is weakly acidic, sensitive
to light. When not absolutely pure or stabilized, hydrogen cyanide polymerize
物理的性質
Colorless liquid or gas; odor of bitter almond; burns in air with a blue flame;refractive index 1.2675; autoignition temperature 538°C; vapor density at31°C 0.947 (air=1); liquid density 0.715 g/mL at 0°C and 0.688 g/mL at 20°C;boils at 25.7°C; melts at 13.24°C; vapor pressure 264 torr at 0°C; critical tem-perature 183.5°C; critical pressure 53.20 atm; critical volume 139 cm
3/moldielectric constant 158.1 at 0°C and 114.9 at 20°C; conductivity 3.3 mhos/cmat 25°C; viscosity 0.201 centipoise at 20°C; surface tension 19.68 dyn/cm;readily mixes with water and alcohols; density of a 10% aqueous solution0.984 g/mL at 20°C; pKaat 25°C 9.21.
天然物の起源
Peaches, apricots, bitter almonds, cherries, and plums contain some HCN derivatives in their kernels, frequently in combination with glucose and benzaldehyde as a glucoside (amygdalin). The bitter almond fragrance of HCN and its derivatives sometimes can be detected in such kernels.
来歴
Hydrogen cyanide in pure form was prepared first in 1815 by Gay-Lussac.Earlier, in 1782, Scheel prepared this compound in dilute solution. The mostimportant application of hydrogen cyanide is to produce methyl methacrylatefor methacrylate resins and plastics. Other products made from hydrogencyanide include potassium cyanide, sodium cyanide, adiponitrile, methionine,cyanuric chloride, cyanogen, nitrilotriacetic acid, and several triazine pesti-cides. The compound also is used in small amounts for extermination ofrodents.
使用
HCN was first isolated from a blue dye, Prussian blue, in 1704. HCN is obtainable from fruits that have a pit, such as cherries, apricots, and bitter almonds, from which almond oil and flavouring are made. HCN is used in fumigating, electroplating, mining, and producing synthetic fibres, plastics, dyes, and pesticides. It also is used as an intermediate in chemical syntheses.
Besides, hydrogen cyanide is used in manufacturing cyanide salts, aerylonitrile,and dyes.It is also used as a horticultural fumigant.
製造方法
Hydrogen cyanide is generally produced in industrial quantities by hightemperature catalytic reaction between ammonia, methane, and air (theAndrussow process). The stoichiometry of the process is:
2CH
4 + 2NH
3 + 3O
2 → HCN + 3H
2O ΔH
rxn = 230.4 kcal
The above reaction is endothermic requiring a temperature of 1,100°C and acatalyst such as platinum or rhodium. Other hydrocarbons may be usedinstead of methane.
The compound may be made by several other methods, which include:1. Heating methanol and ammonia in the absence of air at elevated temperatures (600 to 950°C) using a catalyst:
CH3OH + NH3 → HCN + H
2O + H
2
2. Thermal decomposition of formamide at elevated temperatures and reduced pressure:
HCONH
2 → HCN + H
2O
3. Heating acetonitrile and ammonia at 1,100 to 1,300°C:
CH
3CN + NH
3 → 2HCN +2H
2
4. Reaction of sodium cyanide or potassium cyanide or potassium ferrocyanide with a mineral acid:
NaCN + HCl → HCN + NaCl
K
4Fe(CN)
6 + 6HCl → 6HCN + 4KCl + FeCl
2
定義
ChEBI: A one-carbon compound consisting of a methine group triple bonded to a nitrogen atom. Also known as formonitrile, hydrogencyanide and prussic acid,HCN is a highly toxic liquid that has the odor of bitter almonds and boils at 25.6 °C.
also known as hydrocyanic acid, prussic acid, and fonnonitrile, is a very poisonous colorless gas with a characteristic fragrance of bitter almonds. Small amounts of hydrogen cyanide derivatives in combination with glucose and benzaldehyde are found in nature in apricot,peach,cherry, and plum pits.It liquifies at 26°C (79 OF) and is soluble in water,alcohol,and ether. Hydrogen cyanide is usually sold commercially as an aqueous solution containing 2 to 10% hydrogen cyanide. HCN reacts with amines, oxidisers, acids, sodium hydroxide, calcium hydroxide, sodium carbonate, caustic substances, and ammonia. The aqueous solutions of hydrogen cyani dedecompose slowly to form anunonium formate. In some uses, it is preferable to generate hydrogen cyanide as needed, thus eliminating handling and storage problems.
調製方法
Hydrogen cyanide has been manufactured from sodium
cyanide and mineral acid and from formamide by catalytic
dehydration. Two synthesis processes account for most of the
hydrogen cyanide produced. The dominant commercial process
for direct production of hydrogen cyanide is based on
classic technology involving the reaction of ammonia,
methane (natural gas), and air over a platinum catalyst; it
is called the Andrussow process. The second process, which involves the reaction of ammonia and methane, is called the
Blaus€aure–Methan–Ammoniak (BMA) process;
it was developed by Degussa in Germany. Hydrogen cyanide
is also obtained as a by-product in the manufacture of
acrylonitrile by the ammoxidation of propylene (Sohio
process).
反応性
Hydrogen cyanide reacts with hydrogen at 140 °C in the presence of a catalyst, e.g., platinum black, to form methyl amine CH3NH2. When burned in air, it produces a pale violet flame; when heated with dilute sulfuric acid, it forms formamide HCONH2 and ammonium formate HCOONH4; when exposed to sunlight with chlorine it forms cyanogen chloride CNCl, plus hydrogen chloride. An important reaction of hydrogen cyanide is that with aldehydes or ketones, whereby cyanhydrins are formed, e.g., acetaldehyde cyanhydrin CH3CHOH·CH, and the resulting cyanhydrins are readily converted into alpha-hydroxy acids, e.g., alphahydroxypropionic acid CH3·CHOH·COOH.
一般的な説明
Hydrocyanic acid solution is water containing up to 5% dissolved hydrocyanic acid with the faint odor of almonds. HYDROGEN CYANIDE is toxic by inhalation and skin absorption. Prolonged exposure to low concentrations or short term exposure to high concentrations may result in adverse health effects. Its vapors are just barely lighter than air.
反応プロフィール
This particular record contains hydrogen cyanide dissolved in water. Hydrogen cyanide is a very volatile liquid or colorless gas smelling of bitter almonds, b.p. 26° C. A deadly human poison by all routes. The gas (hydrogen cyanide) forms explosive mixtures with air, HYDROGEN CYANIDE reacts violently with acetaldehyde. HYDROGEN CYANIDE is a severe explosion hazard when heated or exposed to oxidizers. HYDROGEN CYANIDE may polymerize explosively at elevated temperature (50-60° C) or in the presence of traces of alkali [Wohler, L. et al., Chem. Ztg., 1926, 50, p. 761, 781]. In the absence of a stabilizer (e.g., phosphoric acid) HYDROGEN CYANIDE may undergo explosively rapid spontaneous (autocatalytic) polymerization leading to a fire. The reaction is autocatalytic because of ammonia formation. The anhydrous acid should be stabilized by the addition of acid. [Bond, J., Loss Prev. Bull., 1991, 101, p.3]. During the preparation of imidoester hydrochlorides, hydrogen chloride was rapidly passed over alcoholic hydrogen cyanide. An explosion ensued, even with cooling of the process, [J. Org. Chem., 1955, 20, 1573].
危険性
Flammable, dangerous fire risk, explosive
limits in air 6–41%. Toxic by ingestion, inhalation,
and skin absorption. TLV: ceiling 4.7 ppm.
健康ハザード
Exposures to hydrogen cyanide cause adverse health effects to animals and humans.
Hydrogen cyanide is readily absorbed from the lungs and the symptoms of poisoning
begin within seconds to minutes. The symptoms of toxicity and poisoning include, but
are not restricted to, asphyxia, lassitude or weakness, exhaustion, headache, confusion,
nausea, vomiting, increased rate and depth of respiration, or respiration slow and gasp-
ing, thyroid and blood changes. Inhalation of hydrogen cyanide causes headache, dizzi-
ness, confusion, nausea, shortness of breath, convulsions, vomiting, weakness, anxiety,
irregular heart beat, tightness in the chest, and unconsciousness, and these effects may be
delayed. The target organs of induced toxicity and poisoning include the CNS, cardiovas-
cular system, thyroid, and blood.
火災危険
Hydrogen cyanide is a highly flammable liquid. Liquid HCN contains a stabilizer
(usually phosphoric acid), and old samples may explode if the acid stabilizer is not
maintained at a sufficient concentration.
燃焼性と爆発性
Hydrogen cyanide is a highly flammable liquid. Liquid HCN contains a stabilizer
(usually phosphoric acid), and old samples may explode if the acid stabilizer is not
maintained at a sufficient concentration.
貯蔵
Hydrogen cyanide should be stored in a cool, dry, well-ventilated area in tightly sealed
containers and with the correct label. Containers of hydrogen cyanide should be protected
from physical damage and should be stored separately from amines and oxidizers, such
as perchlorates, peroxides, permanganates, chlorates, and nitrates. It should be kept sepa-
rated from strong acids, such as hydrochloric, sulfuric, and nitric acids, away from sodium
hydroxide, calcium hydroxide, sodium carbonate, water, ammonia, acetaldehyde, and
caustics.
純化方法
HCN is prepared from NaCN and H2SO4, and dried by passage through H2SO4 and over CaCl2, then distilled in a vacuum system and degassed at 77oK before use [Arnold & Smith J Chem Soc, Faraday Trans 2 77 861 1981]. Cylinder HCN may contain stabilisers against explosive polymerisation, together with small amounts of H3PO4, H2SO4, SO2, and water. It can be purified by distillaton over P2O5, then frozen in Pyrex bottles at Dry-ice temperature for storage. [Zeigler Org Synth Coll Vol I 314 1941, Glemser in Handbook of Preparative Inorganic Chemistry (Ed. Brauer) Academic Press Vol I pp 658-660 1963.] Liquid HCN, like liquid ammonia, evaporates very slowly since the latent heat of evaporation is high and keeps it in the liquid state because the temperature of the liquid is lowered to below its boiling point. EXTREMELY POISONOUS; all due precautions should be taken.
不和合性
HCN can polymerize explosively if heated above 50 °C or in the presence of trace
amounts of alkali.
廃棄物の処理
In the event of a spill, remove all ignition sources. Cleanup should be conducted
wearing appropriate chemical-resistant clothing and respiratory protection
Disposal Excess hydrogen cyanide and waste material containing this substance should be
placed in an appropriate container, clearly labeled, and handled according to your
institution's waste disposal guidelines. For more information on disposal procedures,
see Chapter 7 of this volume.
予防処置
Occupational workers should be very careful in the management of HCN since the gas in
air is explosive at concentrations over 5.6%, equivalent to 56,000 ppm and it does not provide adequate warning of hazardous concentrations. HCN at a concentration of 300 mg/m3
in air becomes fatal within about 10 min and HCN at a concentration of 3500 ppm (about
3200 mg/m3
) kills a human in about 1 min.
青酸 上流と下流の製品情報
原材料
準備製品