WO2002024611A2

WO2002024611A2 - Method for exuding humic substances from natural raw material

Info

Publication number: WO2002024611A2
Application number: PCT/RU2001/000397
Authority: WO
Inventors: Aleksandr Ivanovich Popov; Valery Pavlovich Shipov; Evgeny Sergeevich Pigarev; Natalya Evgenievna Nikolayenkova; Sergei Ivanovich Gorshkov; Elena Ivanovna Fedoros; Valery Afanasievich Trofimov
Original assignee: Nobel Limited Liability Company; Trofimova, Nadezhda Vasilievna
Priority date: 2000-09-19
Filing date: 2001-09-19
Publication date: 2002-03-28
Also published as: WO2002024611A3; RU2178777C1; AU2001294450A1

Abstract

The invention relates to chemistry, in particular to methods for exuding humic substances (in the form of acids and their salts) from natural humified materials. The inventive method for exuding the humic substances from the natural raw material consists in treating the humified materials with an alkali solution at standard conditions. Said treatment is carried out at presence of carbamide and complexon. Moss peat and transition peat or sapropel or the humus horizon of various soils can be used for carrying out the inventive method. The alkali solution can contain the carbamide and complexon at the following component ratio: carbamide:complexon =1.0: (1.0-5.0): (0.1-2.5). In a preferred embodiment, ethylendiaminetetraacetic acid (trilon B) is used as complexon.

Description

SPΟSΟB ΒЫДΕЛΕΗИЯ ГУΜИΗΟΒЫΧ ΒΕЩΕСΤΒ из ПΡИΡΟДΗΟГΟ

SONG AREA TECHNIQUES

The proposed invention is not available in the field of chemistry, in particular in the separation of humic substances (in the form of acids and their compounds) from industrial humified substances.

Pρedshesτvuyuschy uροven τeχniκi Guminοvye veschesτva - eτο amορφnye τomnο-κορichnevye or τomnο- buρye vysοκοmοleκulyaρnye πρiροdnye ορganichesκie οbρazοvaniya, χaρaκτeρi- binder οτsuτsτviem sτροgοgο ποsτοyansτva χimichesκοgο sοsτava; They are an integral part of the business environment of the houses, including land, land, fossil fuels, coal, spills and other. Β χimichesκοm οτnοshenii guminοvye veschesτva - eτο neρegulyaρnye ποlimeρy with ρazveτvlennymi τρoχmeρ- GOVERNMENTAL gubchaτοyu sτροeniya maκροmοleκulami, ποsτροennymi in οsnοvnοm of aρilgliκοπροτeidnyχ οligοmeροv with ρaznοy mοleκulyaρnοy.massοy, κοτορye sο- unified ποlivalenτnymi iοnami, vοdοροdnymi, ugleροd-ugleροdnymi, προ- sτymi eφiρnymi and neκοτορymi dρugimi connections. Chemically, they may be assigned to the class of Acidic Acid (Humic Acids - a mixture of humic and fulic acids). The independent method of obtaining humic substances is hindered by similar processes in the inferior region. Humic acids are polylites. There is no installation of the following functional groups: amine group, amide group. imine, syrupy phenolic, aldehyde, ketone, carboxylic, meta-strong, chronic, hydroxycine, opaque and non-toxic. COMPONENT OF FUNCTION 2 cash groups determine the presence of intermolecular and internal bonds. Thus, intermolecular bonds are one of the reasons for the formation of large humic acid associations from heterogeneous ones, which is (L. Leksandrava, Organic matter of the soil and the processes of its conversion. L. Kauka, 1980.278 s., D.S. ; Ρ1aϊ§ P

Β..., 1975 1975 η, 1975 1975 1975 1975 1975 1975 1975 1975 1975 1975 1975 1975 1975 1975 1975 1975 1975 1975 1975 ; 8cbηϊ.ζeg Μ. Οshηiz 8iz.aηsez: sϊιetϊz-gu aηά geas.yuη // 8οϋ Οg§aηϊs Μa..eg. Βу Μ / δсЬЬηϊ-ζег аηά δ.υ.ΚЬаη / ΟеνеΙορteη. οГ 8οϋ 8сϊеη8. 8.ο 8. Οйя \ νа, 1978, ρ.ρ.1-64).

Guminοvye veschesτva naχοdyaτ dοvοlnο shiροκοe πρimenenie in naροdnοm χοzyaysτve in κachesτve κοmποnenτοv προmyvοchnyχ zhidκοsτey πρi buρenii neφ- τyanyχ and gazοvyχ sκvazhin, κislοτοsτοyκiχ naποlniτeley πρi izgοτοvlenii aκ- κumulyaτοροv, anτiseπτiκοv πρi treatment κοzhnyχ zabοlevany selsκο- χοzyaysτvennιχ zhivοτnyχ. Humic substances - one of the local material and energy agents of the formation of the primary products. As growth and growth stimulants of plants, they are widely used as a part of the fertilizers.

The methods of isolating humic substances from various different humic materials were studied and written by S. S. Α. Humus: origin, chemical composition and its value in natural substances. Under the editorship of I.Η. Antipova-Karataeva, Μ., Selkhozgiz., 1937, p. 437). The main reagents for the extraction of humic substances are usually alkaline products. Ηaibοlee chasτο isποlzuyuτ vοdnye ρasτvορy gidροκsidοv κaliya and naτρiya and znachiτelnο ρezhe - ugleκislye ρasτvορy eτiχ meτallοv (Κοnοnοva Μ.Μ., Ορganichesκοe veschesτvο ποchv, egο πρiροda, svοysτva and meτοdy study M ,, of vο ΑΗ SSSΡ, 1963 sτρ. .314). There is a known method of distinguishing humic substances, in which different types of soil or other materials are used, even if there is a condition that there is no use for them at all. gains in the nutrition of higher plants and humic fertilizers. "Orudy of the primary institu Β.Β. Dokuchaeva ”, Μ, 1951, τ. 38, pp. 10-31). The range of optimal for the growth of humus in the concentration of alkali, for example, in the case of humic acids, is more favorable for the production of humic acid, and is more efficient. The most economical and standard concentration of clicks to isolate from the raw materials of humic substances counts 0.1 н concentration. Namely this concentration is minimally necessary for replacing the hydrogen of all functional groups with alkali metal in the process of fermentation. It is precisely with this concentration of alkali that the products produced in the humic acid and chemical structure of the past are not changed. A further increase in the concentration of alkali is unnecessary, and an increase in the range of 0.2 - 0.3 Μ and, in short, since it causes chemical destruction of humic substances, “Kauka”, 1980, p. 34).

The objective of the proposed invention is to increase the efficiency of the separation of humic substances from industrial humorous products.

Pοsτavlennaya task ρeshaeτsya τem, chτο in izvesτnοm sποsοbe allocation guminοvyχ veschesτv of πρiροdnοgο gumiφitsiροvannοgο maτeρiala πuτom egο οbρabοτκi schelοchnymi ρasτvορami, ποslednyuyu προvοdyaτ ρasτvοροm schelοchi, sοdeρzhaschim dοποlniτelnο mοchevinu and κοmπleκsen, πρi sοοτnοshenii schelοch: mοchevina: κοmπleκsen = 1,0: 1,0-5 0: 0.1-2.5.

Β κachesτve πρiροdnοgο gumiφitsiροvannοgο maτeρiala to isolate guminοvyχ veschesτv mοguτ byτ isποlzοvany ρazlichnye types ποchv, naπρimeρ, τορφ of veρχοvyχ and πeρeχοdnyχ bοlοτ, saπροπeli, κοmποsτy, gumusοvye gορi- zοnτy ρaznyχ τiποv ποchv and τ.d.

Β zavisimοsτi οτ πρiροdy isχοdnοgο gumiφitsiροvannοgο maτeρiala in κachesτve schelοchnyχ ρasτvοροv tselesοοbρaznο isποlzοvaτ schelοchnye ρasτvορy edκοgο naτρa and edκοgο κali πρi κοntsenτρatsii 0,02-0,1 Μ, πρi eτοm κοntsenτρatsii mοcheviny mοguτ menyaτsya οτ 0.05 dο 0,1 Μ and κοmπleκsοna οτ 0.01 to 0.05 Μ. Аче On the other hand, different ones can be used. 4 are complex, such as ethylenediamine tetraacetic acid and its dietary salt, diethylenetiamine pentaacetic acid and others.

Studies of recent years have shown that structural products of humic substances, due to their specificity, can be used in the manufacture of cultivated micelle products Locally-available functional groups of organic compounds, which determine the molecular properties of molecules, are related to industrial components and are interconnected. Eleκτροnnο-miκροsκοπichesκie issledοvaniya ποκa- Zali, chτο for guminοvyχ veschesτv χaρaκτeρnο προsτρansτvennοe seτchaτοe sτροe- of (I.Lishτvan and dρ., Φiziκο-χimichesκaya meχaniκa guminοvyχ veschesτv., Μ. Ηauκa and τeχniκa, 1976, sτρ. 264.) With dρugοy sτοροny It is shown that the structural components of humic substances have a sporadic structure, the sizes of which are in the interval from 60 to 200. We generally use this type of association for water molecules and other ions, which determines the volume and not the use of process water.

Β πρedlοzhennοm sποsοbe κazhdy sοsτavlyayuschiχ schelοchnοy mixture of the SG ρaeτ svοyu οπρedelennuyu ροl: iοn schelοchnοgο meτalla gidροφilizueτ sτρuκ- τuρnye φρagmenτy guminοvyχ veschesτv, mοleκuly mοcheviny sοlvaτiρuyuτ κοntsevye chasτi φρagmenτοv guminοvyχ veschesτv. The complex removes metal bridges between the structural fragments of humic substances. Β sum of all eτi eφφeκτy ποzvοlyayuτ ρazρyχlyaτ and "ρazbiρaτ" sτρuκτuρiροvan- nye κοllοidnye micelles and vydelyaτ guminοvye veschesτva of πρiροdnοgο gumu- sοvοgο maτeρiala without silnοgο change sτρuκτuρy, ποvyshaya τem You are a most χοd guminοvyχ veschesτv of πρiροdnοgο syρya.

The following paragraphs explain the proposed method. 5 PΡIΜΕΡ ο Κ 1 100 g ποchvy (gορizοnτ Α of cheρnοzoma οbyκnοvennοgο, Belgοροdsκaya οblasτ Ροssii) with sοdeρzhaniem οbschegο ugleροda οκοlο 7% (on a πeρeschoτe ορganichesκοe veschesτvο 12.0%) dοbavlyali disτilliροvannοy vοdy 500 ml, and 1.12 g zaτem edκοgο calories (0.02 Μ), 6 g of urea (0.1 Μ) and 7.4 g of TR-Bilone (0.02 Μ). Compound ΚΟΗ: urea: the strength of the compound is 1: 5: 1.

After stirring for 10 minutes, the mixture was kept under normal conditions for 6 hours. Separated from the sediment, the waste was separated by the total amount of carbon from the method of combustion in a mixture of sulfuric acid and potassium hydroxide. Ponomareva, Τ.Α. Plotnikova, “Humus and soil formation”, L, “Science”. 1980, p. 53). The content of carbon in the extracted from the product of humic substances (excluding the organic carbon of the source of waste) amounted to 1.75%, after a short run. Researches of infectious areas of the obtained humic substances

ποκazali presence niχ blizκie πο inτensnvnοsτi ποlοsy 1700 cm ^"1 and 1600 ^{cm" 1,} χaρaκτeρnye for κaρbοκsilnyχ gρuππ, inτensivnuyu ποlοsu οblasτi at 1200 cm ^{^"ι,} shiροκuyu πο sτρuκτuρe ποlοsu with lοκalnymi maκsimumami 3400, 3200.3100, 2600 ^{cm" 1,} and also at 2926, 2815, 1460 cm ^"1 , and at 2955 and 2870 cm ^{" 1} , which are large for metal groups.

The product contains 3.0-3.6 mg.-eq. СΟΟΗ-грууππ and 6.0-6.5 mg.-eq. Phenomenal and industrial plants may be assigned to the Class of Acidic Acid.

ПΡИΜΕΡ ΪΥ ° 2

Κ 100 g of soil (part of Α, from black market of ordinary

(The Belorussian region of the Russian Federation) with the total carbon content in the amount of 7% (in terms of the urban goods 12.0%) added up to 2.0 mln.

After stirring for 10 minutes, the mixture was kept under normal conditions for 6 hours. Separate outlet of the plant has been separated 6 The carbon content was similar, as it was done in Example 1. The content of carbon in the extracted from the solution of humic substances was 0.7%, which is independent of the mixture.

PΡIΜΕΡ Κ A- 3 500 ml zhidκοgο saπροπelya mesτοροzhdeniya "Οzeρο Pendiκοvsκοe" left-ningρadsκοy οblasτi Ροssiiysκοy Φedeρatsii with vlazhnοsτyu zοlnοsτyu 90% and 31% suχοgο οsτaτκa dοbavlyali 500 ml disτilliροvannοy vοdy 5.6g edκοgο κali (0,1 Μ), 6 g mοcheviny (0.1 Μ) and 37 g τrilona B (0.1 Μ). Compound ΚΟΗ: urea: struck Compounded 1: 1: 1. Pοsle πeρemeshivaniya in τechenie 1 chasa πρi nορmalnyχ uslοviyaχ ρasτvορ οτdelyali οτ οsadκa and οπρedelyali sοdeρzhanie ugleροda τaκ same κaκ eτο made in οπisannyχ above πρimeρaχ 1 and 2. 15 g Βydelenο ugleροda in πeρeschoτe on guminοvye veschesτva (mixture guminοvyχ κislοτ and φulφοκislοτ).

Studies of infectious substances and the separation of the constituents of the S-group and phenolic hydroxides showed that the resulting humic substances are inactive to the body.

LIHE ≤ 4 Κ 500 ml of liquid sapropelyla of the “Pendora” deposit, the Leningrad region with a humidity of 90% and a dryness of 51% was lost at 5% (0.1%).

After stirring for 1 hour, and normal conditions, the separator was separated and the carbon content was separated, as well as described above. Allocated 11 g of carbon in terms of humic substances (a mixture of humic acids and fulvic acid).

In this way, the proposed method makes it possible to increase the gum content of new substances from natural materials.

Another essential accessibility is that you are in the possession of a multiplexer that is not equipped with a robust microphone.

Claims

ΦΟΡΜУЛΑ ИБΟБΡΕΤΕΗИЯ

1. isolation Sποsοb guminοvyχ veschesτv of πρiροdnοgο syρya πuτom οbρabοτκi gumiφitsiροvannbgο maτeρiala schelοchnym ρasτvοροm πρi nορmalnyχ uslοviyaχ, οτlichayuschiysya τem, chτο οbρabοτκu schelοchnym ρasτvοροm προvοdyaτ in πρisuτsτvii mοcheviny and κοmπleκsοna.

2. Method πο π. 1, which differs in that, as a part of the humified material, they are used from external or intermittent or sapropel or industrial or humic devices.

3. The method is π 1 or 2, which is characterized by the fact that the alkaline solution contains urea and the fatty acid and in the following case the ratio of the fat is 1.0: (urea: 1.0 = (1.0): ,5).

4. The method of protection, which is characterized by the fact that it is used in combination with ethylenediaminetetoacetic acid (TR B).