DIETILAMINOETHANOL ( DETLAMNOETANOL)

Table of Contents

DIETILAMINOETHANOL ( DETLAMNOETANOL)

DETHYLAMNOETHANOL (DETLAMNOETANOL)

CAS NO: 100-37-8

 

synonyms:

dietilaminoetanol; Dietilaminoetanol; DETHYLAMINOETHANOL; 2-(Diethylamino)ethyl alcohol;2-(N,N-Diethylamino)ethanol;2-Hydroxytriethylamine;beta-(Diethylamino)ethanol;beta-(Diethylamino)ethyl alcohol;beta-Hydroxytriethylamine;DEAE;Dehydasal;Ethanolamine N-ETHYLDIETHANOLAMINE 2,2-Bis(hydroxymethyl)-2,2′,2”-nitrilotriethanol TRIETHANOLAMINE BORATE N-BENZYLIMINODIACETIC ACID Alizarin Fluorine Blue 1-ETHYL-3-PYRROLIDINOL N-[2-(4-Bromophenoxy)ethyl]pyrrolidine 3-PYRROLIDINO-1,2-PROPANEDIOL 2,2′-(Butylimino)diethanol 2-OXO-1-PYRROLIDINEACETIC ACID METHYL ESTER Thymolphthalein Complexone 1,2-Cyclohexylenedinitrilotetraacetic acid N,N,N’,N’-TETRAKIS(2-HYDROXYETHYL)ETHYLENEDIAMINE Triethanolamine Ethylenediaminetetraacetic acid disodium salt N-(2-Hydroxyethyl)pyrrolidine ETHYLENEDIAMINE-N,N’-DIACETIC-N,N’-DIPROPIONIC ACID;2-(Diethylamino)Ethan-1-Ol;2-(Diethylamino)ethan-1-ol;2-(Diethylamino)ethanol;2-(diethylamino)ethan-1-ol;2-(diethylamino)ethanol;Diethylaminoethanol;N,N-Diethylethanolamine;11433;134373;500012665;A-14877;A16274;AGN-PC-0JK840;BBL012211;BB_SC-06638;F0001-0014;DETHYLAMNOETHANOL ; STL163552;C6H15NO;2-Diethylaminoethanol; 2-Diethylaminoehtanol; DEAE; Diethylethanolamine; Diethyl amino ethanol; 2-(diethylamino)ethanol hydrochloride ;(1:1); 2-(diethylamino)ethanol sulfate (2:1); sodium 2-(diethylamino)ethanolate; 2-amino-2-ethylbutan-1-ol; 1-(diethylamino)ethanol; ;Diethylaminoethanol;EINECS202-845-2; N,N-Diethylethanolamine, DEAE, DEEA;N,N-Diethylethanolamine;Diethylaminoethanol;2-(Diethylamino)ethanol; ;Ethanol, 2-(diethylamino)-;2-(diethylamino)ethanol;.beta.-(diethylamino)ethanol;(diethylamino)ethanol;2-(diethylamino)ethanol;2-(N,N-diethylamino)ethanol;2-N-(diethylamino)ethanol;.beta.-(diethylamino)ethyl alcohol;2-(diethylamino)ethyl alcohol;diethylaminoethanol;2-diethylaminoethanol;2-N-diethylaminoethanol;2-diethylaminoethanol [UN2686] [Corrosive];diethylethanolamine;diethylmonoethanolamine;2-hydroxytriethylamine;2-(Diethylamino)-ethanol;N,N,-Diethylethanolamine;Ethanol, 2-;(diethylamino)-;dietiletanolamina;Diethylethanolamin;diethylethanolamine;diéthyléthanolamine;(2-Hydroxyethyl)diethylamine;(Diethylamino)ethanol;«beta»-(Diethylamino)ethanol;«beta»-(Diethylamino)ethyl alcohol;«beta»-Hydroxytriethylamine;2-(Diethylamino)ethanol;2-(Diethylamino)ethyl alcohol;2-(N,N-Diethylamino)ethanol;2-Hydroxytriethylamine;DEAE;Dehydasal;Diaethylaminoaethanol;Diethyl(2-hydroxyethyl)amine;Diethylamino;Diethylethanolamine;ethanol;N-(Diethylamino)ethanol;N,N-Diethyl-2-aminoethanol;N,N-Diethyl-2 hydroxyethylamine;N,N Diethylaminoethanol;N,N-Diethylethanolamine;N,N-Diethylmonoethanolamine;N,N-Diethyl-N-(«beta»-Hydroxyethyl)amine;DEEA;DEAE;(2-Hydroxyethyl)diethylamine; (Diethylamino)ethanol; 2-(Diethylamino)ethyl Alcohol; 2-(N,N-Diethyl)ethanolamine; 2-(N,N-Diethylamino)ethanol; 2-Hydroxytriethylamine; A 22; A 22 (Amine); Amino Alcohol 2A; DEAE; DEEA; Diethyl(2-hydroxyethyl)amine; Diethyl(β-hydroxyethyl)amine; Diethylethanolamine; Diethylmonoethanolamine; MKS; N,N-Diethyl(2-hydroxyethyl)amine; N,N-Diethyl-2-aminoethanol; N,N Diethylmonoethanolamine; N-(2-Hydroxyethyl)diethylamine; NSC 8759; Pennad 150; β-(Diethylamino)ethanol;Diethylethanolamine;2-Hydroxytriethylamine;Ethanol, 2-(diethylamino)-;Ethanol, 2-(diethylamino)-;Ethanol, 2-(diethylamino)-;2-(DIETHYLAMINO)ETHANOL;Dehydasal;Organic Building Blocks;(2-Hydroxyethyl)diethylamine;(Diethylamino)ethanol;2-(Diethylamino)ethanol;2-(Diethylamino)ethyl alcohol;2-(N,N-Diethylamino)ethanol;2-DIAETHYLAMINOAETHANOL;2-Diethylaminoethanol;2-Diethylaminoethyl alcohol;2-dietilaminoetanol;2-Hydroxytriethylamine;A 22;A 22 (amine);DEAE;DEEA;Diethyl(β-hydroxyethyl)amine;DIETHYLAMINOETHANOL;DIETHYLETHANOLAMINE;Diethylmonoethanolamine;ETHANOL, 2-(DIETHYLAMINO);Ethanol, 2-(diethylamino)-;ETHANOLAMINE, N,N-DIETHYL-;MKS;N-(2-Hydroxyethyl)diethylamine;N,N-Diethyl(2-hydroxyethyl)amine;N,N-Diethyl-2-aminoethanol;N,N-DIETHYLAMINO ETHANOL;N,N’-Diethylethanolamine;N,N-Diethylethanolamine;N,N-Diethylmonoethanolamine;NSC 8759;Pennad 150;UN 2686;UN 2686;β-(Diethylamino)ethanol;alkanolamine;N-(2-Diethylamino)ethanol;C(6) H(15) NO;corresponding protonated salts;Pennad 150(2-Hydroxyethyl)diethylamine (Diethylamino)ethanol .beta.-(Diethylamino)ethanol 2-(Diethylamino)ethanol 2-(Diethylamino)ethyl alcohol 2-(N,N-Diethylamino)ethanol 2-Diethylaminoethanol 2-Hydroxytriethylamine DEAE Diethyl(2-hydroxyethyl)amine Diethylethanolamin Diethylethanolamine Diethylmonoethanolamine Ethanol, 2-(diethylamino)- (8CI, 9CI) MKS N,N-Diethyl-2-aminoethanol N,N-Diethyl-2-hydroxyethylamine N,N-Diethyl-N-(.beta.-hydroxyethyl)amine N,N-Diethylethanolamine N,N-Diethylmonoethanolamine N-(2-Hydroxyethyl)diethylamine Pennad 150;2-diethylaminoethanol hydrochloride, 14C-labeled;2-diethylaminoethanol sulfate (2:1);2-diethylaminoethanol tartrate;2-diethylaminoethanol, sodium salt;Perdilaton;Rotec A.O.;-Diethylamino;Loramine AMB 13;Dietyleneglycol ;2-ChloroethanolGr;Ethanolamine N-ETHYLDIETHANOLAMINE ;2,2-Bis(hydroxymethyl)-2,2′,2”-nitrilotriethanol TRIETHANOLAMINE BORATE N-BENZYLIMINODIACETIC ACID Alizarin Fluorine Blue 1-ETHYL-3-PYRROLIDINOL N-[2-(4-Bromophenoxy)ethyl]pyrrolidine 3-PYRROLIDINO-1,2-PROPANEDIOL 2,2′-(Butylimino)diethanol 2-OXO-1-PYRROLIDINEACETIC ACID METHYL ESTER Thymolphthalein Complexone 1,2-Cyclohexylenedinitrilotetraacetic acid N,N,N’,N’-TETRAKIS(2-HYDROXYETHYL)ETHYLENEDIAMINE Triethanolamine Ethylenediaminetetraacetic acid disodium salt N-(2-Hydroxyethyl)pyrrolidine ETHYLENEDIAMINE-N,N’-DIACETIC-N,N’-DIPROPIONIC ACID;2-(Diethylamino)ethyl alcohol 2-(N,N-Diethylamino)ethanol 2-Hydroxytriethylamine beta-(Diethylamino)ethanol beta-(Diethylamino)ethyl alcohol beta-Hydroxytriethylamine DEAE Dehydasal Diaethylaminoaethanol Diethyl(2-hydroxyethyl)amine -Diethylamino Loramine AMB 13 N-(Diethylamino)ethanol N,N-Diethyl-2-aminoethanol N,N-Diethyl-2-hydroxyethylamine N,N-Diethylaminoethanol N,N-Diethylmonoethanolamine N,N-Diethyl-N-(beta-Hydroxyethyl)amine Pennad 150 Perdilaton DIETHYLAMINOETHANOL DIETHYLAMINOETHANOLAMINE DIETHYLAMLNOETHANOL DIETHYLETHANOLAMINE DIETHYLETHANOLAMINE(N,N-) Amino Alcohols Building Blocks 100-37-8 2-DIETHYLAMINOETHANOL (2-HYDROXYETHYL)DIETHYLAMINE N,N-DIETHYLETHANOLAMINE Organic Building Blocks Oxygen Compounds 2-Diethylaminoehtanol ALCOHOL N,N-DIETHYLETHANOLAMINE, A PRODUCT OF ATOFINA EUROPE 99,5+% 2-(DIETHYLAMINO)ETHANOL (N,N-DIETHYLETHA NOLAMIN) N,N-DIETHYLETHANOLAMINE, 99.5+% Rotec A.O. 2-DiethylaminoethanolForSynthesis Di-EthylEthanolamine(Deea) 2-ChloroethanolGr β-Diethylaminoethyl alcohol N,N-Diethylethanolamine, 99+% Ethanol, 2-(diethylamino)- 2-DIETHYLAMINOETHANOL,REAGENT Dietyleneglycol 111-42-4 1,2-DIETHYLAMINOETHANOL 2-DIETHYLAMINOETHANE Diethylethanolamin 2-(DIETHYLAMINO)-ETHANOL 99+% 2-diethylaminoethanol N,N-diethylethanolamine 2-DIETHYLAMINOETHANOL extrapure CH3CH22NCH2CH2OH N,N-Diethyletholamine 2-(Diethylamino)etha N,N-Diethylethanolamine (2-Hydroxyethyl)diethylamine;N,N-Diethyl-N-(β-hydroxyethyl)amine;N,N-Diethyl-N-(β-hydroxyethyl)amine;N-Diethylaminoethanol;Pennad 150;Perdilaton;Q2N2 & 2 [WLN];UN 2686;UNII:S6DL4M053U;UNII-S6DL4M053U;β-(Diethylamino)ethanol;β-(Diethylamino)ethanol;β-(diethylamino)ethyl alcohol;β-(Diethylamino)ethyl alcohol;β-Diethylaminoethanol;β-Diethylaminoethyl alcohol;β-hydroxytriethylamine;β-Hydroxytriethylamine;Ethanol, 2-(diethylamino)-; N,N-Diethyl-2-aminoethanol; (Diethylamino)ethanol; DEAE; β-(Diethylamino)ethanol; Diethyl(2-hydroxyethyl)amine; N,N-Diethyl-N-(β-Hydroxyethyl)amine; N,N-Diethyl-2-hydroxyethylamine; N,N-Diethylethanolamine; N,N-Diethylmonoethanolamine; Pennad 150; 2-(Diethylamino)ethanol; 2-(Diethylamino)ethyl alcohol; 2-(N,N-Diethylamino)ethanol; 2-Hydroxytriethylamine; β-(Diethylamino)ethyl alcohol; (2-Hydroxyethyl)diethylamine; Diaethylaminoaethanol; N-(Diethylamino)ethanol; UN 2686; β-Hydroxytriethylamine; N,N-Diethylaminoethanol; Diethylmonoethanolamine; NSC 8759; A 22;(ジエチルアミノ)エタノール;diethylaminoethanol, 2-diethylaminoethyl alcohol, (diethylamino)ethanol, DEAE, Ethanol, 2-(diethylamino)-, ß-(diethylamino)ethanol, diethyl(2-hydroxyethyl)amine, N,N-diethyl-N-(ß-hydroxyethyl)amine, N,N-diethyl-2-hydroxyethylamine, N,N-diethylethanolamine, N,N-diethylmonoethanolamine, Pennad 150, 2-(diethylamino)ethanol, 2-(diethylamino)ethyl alcohol, 2-(N,N-diethylamino)ethanol, 2-hydroxytriethylamine, ß-(diethylamino)ethyl alcohol, (2-hydroxyethyl)diethylamine, N-(diethylamino)ethanol, ß-hydroxytriethylamine, N,N-diethylaminoethanol, diethylmonoethanolamine;102802-00-6, 14426-20-1, 15417_RIEDEL, 2-(diethylamino)ethanol, 2-diethylamino-ethanol, 2-Diethylaminoethanol, 2-(Diethylamino)ethanol, 2-Diethylaminoethanol [UN2686] [Corrosive], 2-Diethylaminoethanol [UN2686] [Corrosive], 2-(Diethylamino)ethyl alcohol, (2-Hydroxyethyl)diethylamine, 2-Hydroxytriethylamine, 2-N-Diethylaminoethanol, 2-N-(Diethylamino)ethanol, 2-(N,N-Diethylamino)ethanol, 30381-48-7, 31760_FLUKA, 471321_ALDRICH, 64346-24-3, AI3-16309, AIDS018580, AIDS-018580, .beta.-(Diethylamino)ethanol, beta-Diethylaminoethanol, .beta.-(Diethylamino)ethyl alcohol, beta-Diethylaminoethyl alcohol, beta-Hydroxytriethylamine, C6H15NO, CCRIS 4793, CID7497, DEAE, Diaethylaminoaethanol, Diaethylaminoaethanol [German], Diethyl(2-hydroxyethyl)amine, (Diethylamino)ethanol, Diethylamino ethanol, DIETHYLAMINOETHANOL, Diethylethanolamine, Diethylmonoethanolamine, EINECS 202-845-2, Ethanol, 2-(diethylamino)-, ETHANOL,2-DIETHYLAMINO, HSDB 329, LS-300, MLS002174251, NCGC00090925-01, N-Diethylaminoethanol, N-(Diethylamino)ethanol, N,N-Diethyl-2-aminoethanol, N,N-Diethyl-2-hydroxyethylamine, N,N-Diethylethanolamine, N,N-Diethylmonoethanolamine, N,N-Diethyl-N-(.beta.-hydroxyethyl)amine, N,N-Diethyl-N-(beta-hydroxyethyl)amine, NSC8759, NSC 8759, Pennad 150, SMR001261425, UN2686, WLN: Q2N2 & 2;DETLAMNOETANOL supplieras;DETLAMNOETANOL manucafturing; DETLAMNOETANOL price; high quality DETLAMNOETANOL.; Di etil amino etanol; Dietil aminoetanol; D ETL AMNO ETANOL; Di Etil Amino Etanol; di etil amino etanol; Dietil amino etanol;; DETL AMNO ETANOL; Dietilaminoetanol; DETLAMNOETANOL; dietilaminoetanol; DIETHYLAMINOETHANOL; DIETHYL AMINOETHANOL; DI ETHYLAMINOETHANOL; DIETHYLAMINO ETHANOL; dietilaminoetanol; dietilaminoethanol

 

 

DETHYLAMNOETHANOL

 

 

Diethylaminoethanol

Chemical synonyms: 2-Diethylaminoethanol; N,N-diethylethanolamine; 2-Diethylaminoethyl alcohol; Diethyl-(2-hydroxyethyl)amine, 2-; Dietilaminoetanol

Product description

Diethylaminoethanol (Dietilaminoetanol) is a clear liquid. It is used as a neutralizing amine for boiler water, coatings, etc.

Diethylaminoethanol (Dietilaminoetanol) is used as neutralizing agent and CO2 scavenger in boiler water. The ideal vapor pressure and vapor-liquid distribution properties of Diethylaminoethanolmake it the best choice for pH adjustment of process water.

 

Beyond its application in the water treatment segment, Diethylaminoethanolis also used as a neutralizing amine for indrustrial coatings and an intermediate for various surfactants.

 

Diethylaminoethanol

Diethylaminoethanol

Diethylaminoethanol structure 

CAS No.of Diethylaminoethanol 100-37-8

Chemical Name of Diethylaminoethanol :Diethylaminoethanol

Synonyms: Dietilaminoetanol;DEEA;100-37-8;Dehydasal;Pennad 150;Perdilaton;Rotec A.O.;-Diethylamino;Loramine AMB 13;Dietyleneglycol

CBNumber of Diethylaminoethanol :CB5752557

Molecular Formulaof Diethylaminoethanol :C6H15NO

Formula Weightof Diethylaminoethanol :117.19

MOL Fileof Diethylaminoethanol :100-37-8.mol

 

 

Diethylaminoethanol Properties

Melting point of Diethylaminoethanol:-70 °C

Boiling point of Diethylaminoethanol:161 °C(lit.)

Density of Diethylaminoethanol 0.884 g/mL at 25 °C(lit.)

vapor density of Diethylaminoethanol 4.04 (vs air)

vapor pressure of Diethylaminoethanol 1 mm Hg ( 20 °C)

refractive index of Diethylaminoethanol n20/D 1.441(lit.)

Flash point of Diethylaminoethanol:120 °F

storage temp. Flammables area

solubility soluble

pka14.74±0.10(Predicted)

form Crystalline Powder

color White to pale yellow

PH11.5 (100g/l, H2O, 20℃)

PH Range10

explosive limit0.7%(V)

Water Solubility of Diethylaminoethanol soluble

FreezingPoint of Diethylaminoethanol -70℃

Merck 14,3112

BRN 741863

Exposure limitsNIOSH REL: TWA 10 ppm (50 mg/m3), IDLH 100 ppm; OSHA PEL: TWA 10 ppm; ACGIH TLV: TWA 2 ppm (adopted).

Stability:Stable. Flammable. Incompatible with strong oxidizing agents, acids. Moisture sensitive. Hygroscopic.

InChIKeyBFSVOASYOCHEOV-UHFFFAOYSA-N

FDA 21 CFR173.310

CAS DataBase Reference100-37-8(CAS DataBase Reference)

Substances Added to Food (formerly EAFUS)DIETHYLAMINOETHANOL

FDA UNIIS6DL4M053U

NIST Chemistry ReferenceEthanol, 2-(diethylamino)-(100-37-8)

EPA Substance Registry SystemDiethylaminoethanol (100-37-8)

 

 

Diethylaminoethanol Chemical Properties,Uses,Production of Diethylaminoethanol

Chemical Properties

colourless liquid

Physical properties of Diethylaminoethanol

Colorless, hygroscopic liquid with a nauseating, ammonia-like odor. Experimentally determined detection and recognition odor threshold concentrations were 50 μg/m3 (11 ppbv) and 190 μg/m3 (40 ppbv), respectively (Hellman and Small, 1974).

Uses

Water-soluble salts; textile softeners; antirust formulations; fatty acid derivatives; pharmaceuticals; curing agent for resins; emulsifying agents in acid media; organic synthesis.

Definition of Diethylaminoethanol

ChEBI: A member of the class of ethanolamines that is aminoethanol in which the hydrogens of the amino group are replaced by ethyl groups.

Production Methods

2-Diethylaminoethanol (DEAE) is a tertiary amine produced by reaction of ethylene oxide or ethylene chlorhydrin and diethylamine (RTECS 1988). Itokazu (1987) has modified this process for manufacture of Diethylaminoethanolwithout eventual discoloration. Production in this country exceeds 2866 pounds per year (HSDB 1988).

General Description

A colorless liquid. Flash point 103-140°F. Less dense than water . Vapors heavier than air. Produces toxic oxides of nitrogen during combustion. Causes burns to the skin, eyes and mucous membranes.

Air & Water Reactions

Flammable. Soluble in water. Diethylaminoethanol is sensitive to moisture. Slowly hydrolyzes.

Reactivity Profile

Diethylaminoethanol is an aminoalcohol. Amines are chemical bases. They neutralize acids to form salts plus water. These acid-base reactions are exothermic. The amount of heat that is evolved per mole of amine in a neutralization is largely independent of the strength of the amine as a base. Amines may be incompatible with isocyanates, halogenated organics, peroxides, phenols (acidic), epoxides, anhydrides, and acid halides. Flammable gaseous hydrogen is generated by amines in combination with strong reducing agents, such as hydrides. Diethylaminoethanol can react with strong oxidizers and acids.

Health Hazard

INHALATION: Irritation of mucous membranes. EYES: Corrosive, causes intense pain. SKIN: Severe irritation. May cause allergic skin reaction. INGESTION: Gastrointestinal irritation.

Health Hazard

There is a lack of data regarding human toxicity of Dietilaminoetanol. There have been reported cases of skin and eye irritation, as well as dizziness and headache from workers in buildings which use Diethylaminoethanolas a steam additive (HSDB 1988). In this case, it is thought that contact through condensation and accumulation on surfaces is the cause of irritation as the sampling of air in these buildings yielded levels far below that recommended by NIOSH (1980) of a threshold limit value (TLV) time weighted average of 10 p.p.m. on the skin, or approximately 50 mg/m3 (ACGIH 1980). On the basis of data from Cornish (1965) and ACGIH (1980), the TLV is also below the level which will cause irritation directly to the eye. The greatest industrial hazard however, is thought to be to the eyes from contact with the fluid, which is comparable in severity to ammonium hydroxide as an eye irritant (ACGIH 1980).

Diethylaminoethanolis permitted by the U.S. Food and Drug Administration for some applications as a food additive. Applications include protective coatings for fresh fruits and vegetables, and as an additive in steam which directly contacts food products (excluding milk products). The National Research Council Committee on Toxicology (NRC 1983) has concluded that data on long-term, low-level airborne exposures of animals to Diethylaminoethanolfor extrapolation to human health risks are severely lacking. This, combined with the lack of data concerning the concentrations of Diethylaminoethanolin humidified buildings did not allow sufficient information to set guidelines for long-term exposures or estimate the health risks from such exposures. The NRC was able to make some general recommendations based on the assumption that the nitrosation reactions (below) may occur, and that the amine should be considered as hazardous as the nitroso compound formed from it. The recommendations are:

1. The Navy should use boiler additives that are least likely to be nitrosated and that do not have other adverse effects on health that would preclude their use.

2. Diethylaminoethanol and morpholine should not be used in concert in a steam generating system when human exposure to the steam may occur.

3. When amines are used in steam generating systems, the air in rooms where the steam is used and the steam condensate is found should be monitored for the presence of amines and nitrosamines.

4. If Dietilaminoetanol, morpholine, or other nitrosatable volatile amines are used in steam generating systems where humans may be exposed to the steam, the amounts of amines added should be reduced as much as possible.

5. When amines are added to a steam generating system, they should be added continuously in small amounts, rather than in one large daily dose.

Industrial uses

Diethylaminoethanolis used in the pharmaceutical industry for the manufacture of the local anesthetics procaine and chloroquine; and in the chemical industry for the manufacture of water-soluble salts, fatty-acid derivatives, derivatives containing tertiary amine groups, emulsifiers, special soaps, cosmetics and textiles and fibers (HSDB 1988). It also is used in chromatography in chemistry and biochemistry laboratories (Diethylaminoethanolis useful as an ion-exchange matrix; Dietilaminoetanol-cellulose columns are used for purification of proteins and DNA, and Dietilaminoetanol-silica for phospholipid separations). In other industries Diethylaminoethanolis used in some antirust compositions and in textile softeners (Hawley 1977; HSDB 1988). It is also used widely as a steam additive in large buildings requiring humidifiers.

Environmental Fate

Dietilaminoetanol, when compared with other amino alcohols, was observed to be biologically undecomposable in an experiment using activated sludge (HSDB 1988).

Metabolism

The absorption of Diethylaminoethanol(administered orally as Diethylaminoethanolacid malate or ‘Cerebrol’) in healthy adult rats is very rapid, reaching a peak plasma level in 30 min (Bismut et al 1986). The biological half-life is 3.5 h with 39% of the excreted product appearing in the urine after 48 h (Bismut et al 1986). In an earlier study, Schulte et al (1972) demonstrated that in rats, following a single oral dose, excretion occurs mainly through the kidneys with 37-59% being eliminated in the first 24 h. After 48 h, elimination was independent of dose. The brain and spinal cord showed the highest concentration after 7 d. Metabolites produced were observed to be diethylaminoethanol N-oxide, diethylaminoacetic acid, and ethylaminoethanol.

Diethylaminoethanol Preparation Products And Raw materials

 

Diethylaminoethanol

 

Diethylaminoethanol, Diethylethanolamine / Neutralizing amines: neutralize the carbonic acid formed in the condensate lines due to their volatile nature. The main neutralized amines are ammonia morpholine, siglohexylamine, diethylaminoethanol, monoethanol amine, dimethyl isopropanol

The relative basicity, neutralization capacity and thermal stability of these neutralized amines are very important.

Diethylaminoethanol is a precursor to procain and reacts with 4-aminobenzoic to produce procaine. DEAE is used as an inhibitor of corrosion by neutralizing carbonic acid in steam and condensation lines and oxygen scavenging.

 

Diethylaminoethanol CHEMICAL PROPERTIES

 

Appearance of Diethylaminoethanol:A colorless liquid. Less dense than water . Vapors heavier than air. Produces toxic oxides of nitrogen during combustion. Causes burns to the skin, eyes and mucous membranes.

Odor of Diethylaminoethanol : Sharp fish-amine odor

Molecular Formula of Diethylaminoethanol : C6H15NO

Molecular Weight of Diethylaminoethanol: 117.189

Melting point of Diethylaminoethanol: -70 °C

Boiling point of Diethylaminoethanol: 161 °C(lit.)

Flash point of Diethylaminoethanol: 103-140°F.

FreezingPoint of Diethylaminoethanol -70℃

Density of Diethylaminoethanol: 0.884 g/mL at 25 °C(lit.)

PH of Diethylaminoethanol: 11.5 (100g/l, H2O, 20℃)

vapor density of Diethylaminoethanol: 4.04 (vs air)

vapor pressure of Diethylaminoethanol: 1 mm Hg ( 20 °C)

refractive index of Diethylaminoethanol : n20/D 1.441(lit.)

Viscosity, dynamic of Diethylaminoethanol: 4.022 mPa.s ( 25 °C)

solubility of Diethylaminoethanol: soluble

Water Solubility of Diethylaminoethanol : miscible 

explosive limit 0.7%(V)

 

 

APPLICATION of Diethylaminoethanol

 

Diethylethanolamine can be used as a precursor chemical to procaine. It is used as a corrosion inhibitor in steam and condensate lines by neutralizing carbonic acid and scavenging oxygen. it is used for the synthesis of drugs in the pharmaceutical industry and as a catalyst for the synthesis of polymers in the chemical industry. It is also used as a pH stabilizer.

2-Diethylaminoethanol is an inactive metabolite of 2-Chloroprocaine (HCl: C380265), a compound commonly used for epidural analgesia in obstetrics. 2-Diethylaminoethanol is also hypothesized to cause onset-asthma to humans following brief exposure. 2-Diethylaminoethanol also has the ability to inhibit growth of tomato roots.

 

 

DISPOSAL of Diethylaminoethanol

 

Diethylaminoethanol may be burned in an incinerator equipped with afterburner and scrubber. Excess and expired materials are to be offered to a licensed hazardous material disposal company. Ensure that all Federal and Local regulations regarding the disposal and destruction of Diethylaminoethanol are followed.

 

STORAGE of Diethylaminoethanol

Diethylaminoethanol

Ensure container is kept securely closed before and after use. Keep in a well ventilated area and do not store with strong oxidizers or other incompatible materials.Do not allow material to freeze. Room temperature – normal conditions. If frozen, product may separate. Thaw completely at room temperature and stir thoroughly prior to use.

 

 

 

Dietilaminoetanol

 

 

Dietilaminoetanol

Dietiletanolaminin iskelet formülü

simler

Tercih edilen IUPAC ad

2- (Dietilamino) etan-1-ol

Dier isimler

2- (Dietilamino) etanol

Dietilaminoetanol

2-Dietilaminoetanol

N , N -Dietil-2-aminoetanol

N , N- Detietitanolamin

Dietil (2-hidroksietil) amin

(2-Hidroksietil) dietilamin

2-Dietilaminoetil alkol

2-Hidroksietrietilamin

Tanmlayclar

CAS numaras

100-37-8 ☑

3D model ( JSmol )

Etkileimli görüntü

Beilstein Referans

741863

Chebi 

Dietilaminoetanol Chebi: 52153 ☑

ChEMBL 

ChEMBL1183 ☑

ChemSpider 

13842001 ☑

ECHA Bilgi Kart 100.002.587

Dietilaminoetanol EC Numaras 

202-845-2

MeSH 2-dietilaminoetanol

PubChem CID

7497

Dietilaminoetanol RTECS numaras 

KK5075000

UNII 

S6DL4M053U ☑

BM numaras 2686

CompTox Kontrol Paneli ( EPA )

DTXSID5021837 Bunu Wikidata’da düzenle

InChl[göstermek]

Smiles[göstermek]

Dietilaminoetanol Özellikleri

Dietilaminoetanol Kimyasal formül

C 6 , H 15 , N O

Dietilaminoetanol Molar kütle 117.192 g · mol -1

Dietilaminoetanol Görünüm Renksiz sv

Dietilaminoetanol Koku Amonyakl

Dietilaminoetanol Younluk 884 mg mL -1

Dietilaminoetanol Erime noktas -70 ° C; -94 ° F; 203 K [1]

Dietilaminoetanol Kaynama noktas 161.1 ° C; 321.9 ° F; 434,2 K

sudaki çözünürlük

karabilir [1]

log P 0.769

Buhar basnc 100 Pa (20 ° C’de)

Krlma indisi ( n D )

1,441-1,442

Tehlikeler

GHS piktogramlar GHS02: Yanc GHS05: Andrc GHS07: Zararl

GHS Sinyal kelimesi Tehlike

GHS tehlike bildirimleri

H226 , H302 , H312 , H314 , H317 , H332

GHS ihtiyati beyanlar

P280 , P305 + 351 + 338 , P310

Alevlenme noktas 50 ° C (122 ° F; 323 K)

Patlayc limitler 1,4-11,7%

Ölümcül doz veya konsantrasyon (LD, LC):

LD 50 ( ortalama doz )

1.113 g kg -1 (dermal, tavan)

1,3 g kg -1 (oral, sçan)

LC 50 ( ortalama konsantrasyon )

924 ppm (sçan, 4 saat)

1027 ppm (fare) [2]

NIOSH (ABD salk maruz kalma snrlar):

PEL (zin Verilen)

TWA 10 ppm (50 mg/m3) [skin][1]

REL (Recommended)

TWA 10 ppm (50 mg/m3) [skin][1]

IDLH (Immediate danger)

100 ppm[1]

Related compounds

Related alkanols

N-Methylethanolamine

Dimethylethanolamine

Diethanolamine

N,N-Diisopropylaminoethanol

Methyl diethanolamine

Triethanolamine

Bis-tris methane

Meglumine

Related compounds

Diethylhydroxylamine

Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).

Infobox references

Dietiletanolamin ( DEAE) moleküler formülü ile bir kimyasal bileiktir 6 H 15 NO. Lokal anestezik prokain gibi çeitli kimyasal ürünlerin üretiminde öncü olarak kullanlr . Dietilaminoetanol Prokain yapmak için 4-aminobenzoik asit ile reaksiyona sokulabilir . Dietilaminoetanol, iyon deiim kromatografisinde yaygn olarak kullanlan Dietilaminoetanol-selüloz reçinesi için bir öncü olarak kullanlabilir . Dietilaminoetanol ayrca yenilenebilir kaynaklardan da elde edilebilir. Kimyasal olarak kararldr ve karbondioksiti emebilir (CO 2) çevresinden. Çözeltide, scaklk arttnda suyun yüzey gerilimini azaltabilir. [3]

 

DETLAMNOETANOL

 

Dietilaminoetanol, Dietiletanolamin / Nötralize edici aminler: uçucu niteliinden dolay kondensat hatlarnda oluan karbonik asidi nötralize edin. Ana nötrletirilmi aminler, amonyak morfolin, sigloheksilamin, dietilaminoetanol, monoetanol amin, dimetil izopropanol

Bu nötrletirilmi aminlerin göreceli bazlk, nötrletirme kapasitesi ve termal kararll çok önemlidir.

 

Dietilaminoetanol prokainin öncüsüdür ve prokain üretmek için 4-aminobenzoik ile reaksiyona girer. DEAE buhar ve younlama hatlarnda ve oksijen temizlemede karbonik asit nötralize ederek korozyon inhibitörü olarak kullanlr.

 

Dietilaminoetanol UYGULAMASI

 

 

Dietilaminoetanol, prokainin öncü bir kimyasal maddesi olarak kullanlabilir. Karbonik asidi nötralize ederek ve oksijeni temizleyerek buhar ve kondensat hatlarnda korozyon önleyici olarak kullanlr. Ilaç endüstrisinde ilaçlarn sentezi ve kimya endüstrisinde polimerlerin sentezi için bir katalizör olarak kullanlr. Ayrca pH dengeleyici olarak kullanlr.

2-Dietilaminoetanol, doumda epidural analjezi için yaygn olarak kullanlan bir bileik olan 2-Kloroprocainin (HC1: C380265) inaktif bir metabolitidir. 2-Dietilaminoetanolün, ksa bir süre maruz kaldktan sonra insanlarda balangç ​​astmna neden olduu hipotezi vardr. 2-Dietilaminoetanol ayrca domates köklerinin büyümesini engelleme özelliine sahiptir.

 

 

DietilaminoetanolÜN BERTARAFI

 

Dietilaminoetanol, afterburner ve ykayc ile donatlm bir yakma frnda yaklabilir. Ar ve süresi dolmu malzemeler lisansl bir tehlikeli madde imha irketine önerilecektir. Bu maddenin elden çkarlmas ve imhas ile ilgili tüm Federal ve Yerel düzenlemelere uyulduundan emin olun.

 

Dietilaminoetanol DEPOLAMA

 

 

Kullanmadan önce ve kullandktan sonra kabn güvenli bir ekilde kapal tutulmasn salayn. yi havalandrlm bir yerde saklayn ve güçlü oksitleyiciler veya dier uyumayan malzemelerle saklamayn. Malzemenin donmasna izin vermeyin. Oda scakl – normal koullar. Donmu ise, ürün ayrlabilir. Oda scaklnda tamamen çözünüz ve kullanmdan önce iyice kartrnz.

Dietilaminoetanol KMYASAL ÖZELLKLER

 

 

Dietilaminoetanol Görünü: Renksiz bir sv. Sudan daha az youn. Buhar havadan daha ar. Yanma srasnda toksik azot oksitleri üretir. Deride, gözlerde ve müköz zarlarda yanmalara neden olur.

Dietilaminoetanol Koku: Keskin balk-amin kokusu

Dietilaminoetanol Moleküler Formül: C6H15NO

Dietilaminoetanol Moleküler Arlk: 117.189

Dietilaminoetanol Erime noktas: -70 ° C

Dietilaminoetanol Kaynama noktas: 161 ° C (aydnlk)

Dietilaminoetanol Parlama noktas: 103-140 ° F

Dietilaminoetanol Donma noktas -70 ℃

Dietilaminoetanol Younluk: 0,884 g / mL, 25 ° C’de (aydnlk)

Dietilaminoetanol PH: 11.5 (100 g / l, H20, 20 ° C)

Dietilaminoetanol Buhar younluu: 4.04 (vs hava)

Dietilaminoetanol Buhar basnc: 1 mm Hg (20 ° C)

Dietilaminoetanol Krma indisi: n20 / D 1.441 (lit.)

Dietilaminoetanol Viskozite, dinamik: 4.022 mPa.s (25 ° C)

Dietilaminoetanol Çözünürlük: çözünür

Dietilaminoetanol Suda Çözünürlüü: karabilir

Dietilaminoetanol Patlayc snr% 0.7 (V)

 

 

Uygulamalar 

Dietiletanolamin, karbonik asitin nötralize edilmesi ve oksijenin uzaklatrlmas yoluyla buhar ve kondens hatlarnda bir korozyon inhibitörü olarak kullanlr.

 

 

Hazrlk 

Dietiletanolamin, ticari olarak dietilamin ve etilen oksidin reaksiyonu ile hazrlanr . [4]

 

 

(C- 2 , H 5 ) 2 , NH + siklo (CH 2 CH 2 ) O → (C- 2 , H 5 ) 2 NCH 2 CH 2 OH

Ayrca Dietilaminoetanol; dietilamin ve etilen klorohidrin reaksiyonuyla hazrlamak da mümkündür . [5]

 

 

Güvenlik 

Dietilaminoetanol gözler, cilt ve solunum sistemini tahri edicidir. Mesleki Güvenlik ve Salk Dairesi ve Mesleki Güvenlik ve Salk Ulusal Enstitüsü 10 ppm (50 mg / m kimyasal ileme içiler için netmelikleri limitleri 3 sekiz saatlik bir i günü boyunca)

 

 

Genel Bak

Hzl Detaylar

CAS No:

100-37-8

Dier simler:

2-(Diethylamino) etil alkol

MF:

C6H15NO

Dietilaminoetanol EINECS No:

202-845-2

 

 

Dietilaminoetanol Tür:

Baklk fonksiyonu ajanlar, DA-6 için hammadde

Dietilaminoetanol Snf standart:

Yem cinsi, laç snf, Teknoloji snf

 

 

Dietilaminoetanol Saflk:

99.9%

Dietilaminoetanol görünüm:

temizle ve coloress sv

Dietilaminoetanol deneyi:

99.8%

Dietilaminoetanol su:

0.04%

Dietilaminoetanol dier kirlilik:

0.21%

Dietilaminoetanol renk (APHA):

30 Max

Dietilaminoetanol ambalaj:

25kgs/Davul

Dietilaminoetanol kaynama Noktas:

163 °C

Dietilaminoetanol donma Noktas:

-70 ° C

Dietilaminoetanol suda çözünürlük:

çözünür

Dietilaminoetanol parlama Noktas:

60 °C

 

 

Dietilaminoetanol Kimyasal Özellikleri, Kullanmlar, Üretimi

Kimyasal özellikler

renksiz sv

Fiziki ozellikleri

Renksiz, amonyak benzeri bir kokuya sahip renksiz, higroskopik sv. Deneysel olarak saptanan saptama ve tanma koku eii konsantrasyonlar, srasyla 50 ug / m3 (11 ppbv) ve 190 ug / m3 (40 ppbv) idi (Hellman ve Small, 1974).

Kullanmlar

Suda çözünür tuzlar; tekstil yumuatclar; pas formülasyonlar; ya asidi türevleri; ilaç; reçineler için sertletirici; asit ortamnda emülsifiye edici ajanlar; organik sentez.

Tanm

ChEBI: Amino grubunun hidrojenlerinin yerini etil gruplar alan aminoetanol olan etanolamin snfnn bir üyesi.

Üretim yöntemleri

2-Dietilaminoetanol (DEAE), etilen oksit veya etilen klorhidrin ve dietilaminin reaksiyonuyla üretilen bir üçüncül amindir (RTECS 1988). Itokazu (1987), nihai renk deiiklii olmadan Dietilaminoetanol üretimi için bu ilemi deitirmitir. Bu ülkede üretim ylda 2866 liray ayor (HSDB 1988).

Genel açklama

Renksiz bir sv. Parlama noktas 103-140 ° F. Sudan daha az youndur. Havadan daha ar buharlar. Yanma srasnda toksik nitrojen oksitleri üretir. Deride, gözlerde ve mukoza zarnda yanmalara neden olur.

Hava ve Su Reaksiyonlar

Yanc. Suda çözünebilir. Dietilaminoetanol neme duyarldr. Yavaça hidrolize olur.

Reaktivite Profili

Dietilaminoetanol bir aminoalkoldür. Aminler kimyasal bazlardr. Tuzlar ve suyu oluturmak için asitleri nötralize ederler. Bu asit-baz reaksiyonlar ekzotermiktir. Bir nötralizasyonda her bir amin molü için evrimleen s miktar, aminin bir baz olarak kuvvetinden büyük ölçüde bamszdr. Aminler, izosiyanatlar, halojenlenmi organikler, peroksitler, fenoller (asidik), epoksitler, anhidrürler ve asit halidler ile uyumsuz olabilir. Yanc gaz hidrojen, aminler tarafndan hidritler gibi güçlü indirgeyici maddelerle kombinasyon halinde üretilir. Dietilaminoetanol güçlü oksitleyiciler ve asitlerle reaksiyona girebilir.

Salk tehlikesi

SOLUMA: Mukoza zarnda tahri. GÖZ: Andrc, iddetli arya neden olur. CLT: iddetli tahri. Alerjik cilt reaksiyonlarna neden olabilir. YUTMA: Gastrointestinal tahri.

Salk tehlikesi

Dietilaminoetanolün insan toksisitesi hakknda veri eksiklii vardr. Deri ve göz tahrii vakalarnn yan sra Dietilaminoetanolar buhar katks kullanan binalarda çalanlarn ba dönmesi ve ba ars bildirilmitir (HSDB 1988). Bu durumda, bu binalarda hava örneklemesi, NIOSH (1980) tarafndan bir eik snr deerinin (TLV) zaman arlkl ortalamann tavsiye ettii seviyelerin çok altnda bir seviyeye ulatndan, yüzeylerde youma ve birikim yoluyla temasn tahrie neden olduu düünülmektedir. dakikada 10 sayfa ciltte veya yaklak 50 mg / m3’tür (ACGIH 1980). Cornish (1965) ve ACGIH (1980) verilerine dayanarak, TLV de dorudan göze tahrie neden olacak seviyenin altndadr. Bununla birlikte, en büyük endüstriyel tehlikenin, gözle tahri edici olarak ciddiyetle amonyum hidroksite benzeyen sv ile temastan gözlere yönelik olduu düünülmektedir (ACGIH 1980).

ABD Gda ve laç daresi tarafndan gda katk maddesi olarak baz uygulamalar için izin verilen dietilaminoetanolis. Uygulamalar arasnda taze meyve ve sebzeler için koruyucu kaplamalar ve dorudan gda ürünleri ile temas eden (süt ürünleri hariç) buharda bir katk maddesi bulunmaktadr. Ulusal Toksikoloji Aratrma Konseyi Komitesi (NRC 1983), insan sal risklerinin ekstrapolasyonu için hayvanlarn uzun süreli, düük seviyeli hava yoluyla Dietilaminoetanol’e maruz kalmasna ilikin verilerin ciddi ekilde eksik olduu sonucuna varmtr. Bu, Dietilaminoetanolin nemlendirilmi binalarn konsantrasyonlar ile ilgili veri eksikliiyle birletiinde, uzun süreli maruziyetler için klavuzlar belirlemek veya bu tür maruziyetlerden kaynaklanan salk risklerini tahmin etmek için yeterli bilgiye izin vermedi. NRC, nitrozasyon reaksiyonlarnn (aada) meydana gelebilecei ve aminin ondan oluan nitrozo bileii kadar tehlikeli olarak kabul edilmesi gerektii varsaymna dayanarak baz genel önerilerde bulunabilmitir. Öneriler:

1. Donanma, azotlu olma ihtimali en düük olan ve salk üzerinde kullanmn engelleyecek baka olumsuz etkileri olmayan kazan katk maddelerini kullanmaldr.

2. Dietilaminoetanoland morfolini, insann buhara maruz kalmas durumunda, buhar üreten bir sistemde birlikte kullanlmamaldr.

3. Buhar üreten sistemlerde aminler kullanldnda, buharn kullanld ve buhar kondensatnn bulunduu odalarda bulunan hava, aminlerin ve nitrozaminlerin mevcudiyeti açsndan izlenmelidir.

4. Dietilaminoetanol, morfolin veya dier nitrosatabl uçucu aminler, insanlarn buhara maruz kalabilecei buhar üretme sistemlerinde kullanlyorsa, ilave edilen amin miktarlar mümkün olduunca azaltlmaldr.

5. Buhar üreten bir sisteme aminler eklendiinde, büyük bir günlük doz yerine sürekli olarak küçük miktarlarda ilave edilmelidir.

Endüstriyel kullanmlar

ilaç endüstrisinde lokal anestezik prokain ve klorokin üretimi için kullanlan oetanolis; ve kimyasal endüstrisinde suda çözünür tuzlarn, ya asidi türevlerinin, üçüncül amin gruplarn içeren türevlerin, emülsiyonlatrclarn, özel sabunlarn, kozmetik ve tekstil ve liflerin üretimi için kullanlr (HSDB 1988). Ayrca kimya ve biyokimya laboratuvarlarnda (iyon deiim matrisi olarak faydal dietilaminoetanolis; proteinlerin ve DNA’nn saflatrlmas için dietilaminoetanol-selüloz kolonlar ve fosfolipid ayrmalar için Dietilaminoetanol-silika kullanlr) kromatografide kullanlr. Dier endüstrilerde, baz pas önleyici bileimlerde ve tekstil yumuatclarnda kullanlan Dietilaminoetanolis (Hawley 1977; HSDB 1988). Ayrca, nemlendirici gerektiren büyük binalarda buhar katks olarak yaygn olarak kullanlmaktadr.

Çevresel kader

Dietilaminoetanolün, dier amino alkollerle karlatrldnda, aktif çamur kullanlarak yaplan bir deneyde biyolojik olarak çözülemez olduu gözlenmitir (HSDB 1988).

Metabolizma

Salkl yetikin sçanlarda Dietilaminoetanolün (oral olarak Dietilaminoetanolakid malat veya ‘Serebrol’ olarak uygulanr) emilimi çok hzldr ve 30 dakika içinde pik plazma seviyesine ular (Bismut ve ark 1986). Biyolojik yarlanma ömrü, 3.5 saattir ve atlan ürünün% 39’u, 48 saat sonra idrarda görülür (Bismut ve ark 1986). Daha önceki bir çalmada, Schulte ve arkadalar (1972), sçanlarda, tek bir oral dozu takiben, atlmn esas olarak böbrekler yoluyla gerçekletiini ve% 37-59’unun ilk 24 saatte ortadan kaldrldn gösterdi. 48 saat sonra eliminasyon dozdan bamszd. Beyin ve omurilik 7 gün sonra en yüksek konsantrasyonu gösterdi. Üretilen metabolitlerin dietilaminoetanol N-oksit, dietilaminoasetik asit ve etilaminoetanol olduu gözlendi.

 

 

 

 

Diéthyléthanolamine

 

Diéthyléthanolamine

Image illustrative de l’article Diéthyléthanolamine

Structure de la diéthyléthanolamine

Identification

Nom UICPA 2-diéthylamino-éthanol

Synonymes 

N,N-diéthyléthanolamine

2-hydroxytriéthylamine

Dietilaminoetanol

DEEA

No CAS 100-37-8

No ECHA 100.002.587

No CE 202-845-2

No RTECS KK5075000

PubChem 7497

ChEBI 52153

SMILES 

[Afficher]

InChI 

[Afficher]

Apparence liquide incolore avec une odeur d’amine1

Propriétés chimiques

Formule brute C6H15NO [Isomères]

Masse molaire3 117,1894 ± 0,0064 g/mol

C 61,49 %, H 12,9 %, N 11,95 %, O 13,65 %,

pKa 9,87 à 20 °C2

Propriétés physiques

T° fusion -70 °C1

T° ébullition 161 °C1,4

163 °C2

Miscibilité miscible avec l’eau

Masse volumique 0,88 g·cm-31

0,884 g·cm-3 à 25 °C4

Point d’éclair 50 °C4

Limites d’explosivité dans l’air 11,7 %4

Pression de vapeur saturante 1,9 mbar à 20 °C1

1,4 mmHg à 25 °C2

Propriétés optiques

Indice de réfraction {displaystyle {textit {n}}_{D}^{20}}textit{n}_{D}^{20} = 1,4414

Précautions

SGH1,4

SGH02 : InflammableSGH05 : CorrosifSGH06 : Toxique

H226, H302, H311, H314, H331, P210, P280, P303+P361+P353, P304+P340+P310, P305+P351+P338, P370+P378,

[+]

Transport4

2686 

[+]

Écotoxicologie

DL50 1 300 mg/kg (rat, oral)2

192 mg/kg (souris, i.p.)2

1 220 mg/kg (rat, i.p.)2

188 mg/kg (souris, i.v.)2

650 mg/kg (souris, s.c.)2

416 mg/kg (souris, i.m.)2

CL50 5 000 mg/m3 (souris, inhalation)2

LogP (octanol/eau) 0,0502

Unités du SI et CNTP, sauf indication contraire.

modifier Consultez la documentation du modèle

La diéthyléthanolamine est une molécule organique qui peut être utilisée comme un précurseur de la procaïne. On peut la faire réagir avec l’acide 4-aminobenzoïque pour produire la procaïne. À la température ambiante, le composé prend la forme d’un liquide clair ou jaunâtre, miscible avec l’eau.

 

 

Applications

La diéthyléthanolamine est utilisée comme inhibiteur de corrosion dans les conduites de vapeur ou de condensat. Elle agit par neutralisation de l’acide carbonique et par piégeage de l’oxygène.

 

 

Préparation

La diéthyléthanolamine est préparée commercialement par la réaction de la diéthylamine avec l’oxyde d’éthylène5.

 

 

(C2H5)2NH + cyclo(CH2CH2)O → (C2H5)2NCH2CH2OH

Il est également possible de la préparer en faisant réagir la diéthylamine et le 2-chloroéthanol6.

 

 

Sécurité

La diéthyléthanolamine est irritante pour les yeux, la peau et le système respiratoire. L’agence américaine Occupational Safety and Health Administration et le National Institute for Occupational Safety and Health ont fixé des valeurs limites d’exposition pour les travailleurs qui manipulent le produit chimique à 10 ppm (50 mg/m3) sur une journée de travail de huit heures7.

 

TCLo : 200 ppm (humain, inhalation)2.

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