Imọ-ẹrọ olutirasandi Hielscher

Idaraya Tiga Ultra Ultra

Afikun mimu taba ni irẹwẹsi, ilana ti o gba akoko, eyiti o pẹlu lilo awọn nkan ti majele ti ni awọn iwọn otutu giga, eyiti o jẹ ki ilana naa jẹ eewu.
Isediwon ti iranlọwọ arannilọwọ ti awọn alkaloids lati taba le ṣee ṣiṣe ni lilo omi tabi awọn nkan olomi tutu ni ilana iyara ti iṣẹju diẹ. Awọn alkaloids ti a ti fa jade gẹgẹ bi eroja nicotine lati inu taba ti jade ni ilana iyara ati lilo gaju, eyiti o fun awọn iṣelọpọ giga ti jade ni iwoye kikun kikun (ti o ni eroja nicotine, Nornicotine, acid chlorogenic (5-caffeoylquinic acid), rutin, caffeic acid ati scopoletin, solanesol ati be be lo).

Ultrasonic isediwon ti Taba

Isediwon iranlọwọ Ultrasonic (UAE) jẹ iyara, ti o munadoko, ati ọna isediwon irọrun, eyiti o da lori ohun elo ti olutirasandi agbara. Awọn igbi ultrasonic intense nfa iṣipopada iyara micro ati ifunmọ akosọ ninu awọn eto olomi-to-lagbara (fun apẹẹrẹ ohun elo koriko ni epo, fun apẹẹrẹ awọn ewe taba ni ethanol), eyiti o yọrisi gbigbe gbigbe ibi pọ si bii ilana ilana isediwon. Ni afiwe pẹlu awọn imuposi isediwon miiran bii isediwon fifa omi pọ ati isediwon-ion-pair, isediwon iranlọwọ ti ultrasonically jẹ pataki aje diẹ sii, ọrẹ-ayika, ailewu ati rọrun lati lo. Nitorinaa, isediwon ultrasonic ni ilana isediwon ti o fẹ julọ lati tu awọn agbogẹli bioactive kuro lati awọn ilana Botanical.
Awọn abajade isediwon Ultrasonic ni ifaworanhan igbohunsafẹfẹ nla kan, ti o ni eroja eroja, eyiti o jẹ alkaloid akọkọ ti taba pẹlu 94-98% ti akoonu alkaloid lapapọ, bakanna bi alkaloids nornicotine, anabasine, anatabine, cotinine ati myosmine.

UP100H pẹlu sonotrode MS14 fun isediwon ti awọn Botanical, bii Taba

Hielscher Ultrasonics 'SonoStation jẹ iṣeto ultrasonic rọrun lati lo fun iwọn iṣelọpọ. (Tẹ lati tobi!)

SonoStation – eto ultrasonic pẹlu 2x 2kW ultrasonicators, Rú ojò ki o si fifa – jẹ eto amuṣiṣẹ olumulo fun isediwon.

Ibere ​​Alaye

Akiyesi wa Ìpamọ Afihan.

Awọn ifikun Ẹfin taba ni kikun pẹlu Sonication

Awọn alkaloids bii nicotine ati nornicotine, chlorogenic acid, phenolics, solanesol ati awọn iṣiro bio bio miiran le wa ni iyara, ṣiṣe daradara ati sọtọ nipa lilo isediwon ultrasonic. Iyọkuro taba ti mora ni lilo awọn ipinnu awọn majele bii heptane ni awọn iwọn otutu giga, eyiti o yi ilana isediwon pada si ilana eewu. Gbogbo ilana isediwon ni a gba to isunmọ. 24h ati pe nitorinaa o gba akoko pupọ.
Isediwon Ultrasonic le ṣee ṣe bi isediwon omi-tutu tabi lilo awọn ila kekere bii ethanol tabi omi ethanol-ni iwọn otutu tabi iwọn otutu ti o ga julọ. Sonication gba iṣẹju diẹ, eyiti o yi isediwon pada si ilana iyara. Pẹlupẹlu, lilo omi tabi awọn nkan kekere ni ilana jẹ ailewu ati irọrun patapata.
The ultrasonically depleated tobacco leaves are separated from extracted compounds in the solvent. Awọn iṣeeṣe ultrasonically ti o mu awọn iṣan iwoye ni kikun ni awọn eroja akọkọ alkaloid nicotine daradara bi Atẹle tabi awọn alkaloids kekere bi anabasine tabi 3- (2-piperidinyl) pyridine, anatabine tabi 3- (2-1,2,3,6-tetrahydropyridyl) pyridine , cotinine tabi 1-methyl-5- (3-pyridyl) -2-pyrrolidinone), 2,3'-dipyridyl tabi isonicoteine, N-formylnornicotine tabi 2- (3-pyridyl) pyrrolidinecarbaldehyde, myosmine tabi 3- (1-pyrrolin -2-yl) pyridine, nornicotine tabi 3- (pyrrolidin-2-yl) pyridine, ati 𝛽-nicotyrine or 3-(1-methylpyrrol-2-yl)pyridine. The content of these alkaloids varies depending on tobacco species and tobacco products. While nicotine is the primary alkaloid with 94–98% of the total alkaloid content, nornicotine and anatabine are the two most abundant secondary alkaloids, each accounting for approx. 2% to 6% of the total alkaloid content of tobacco.

Benefits of Ultrasonic Tobacco Extraction:

  • Higher Yield
  • High Quality
  • Rapid Extraction
  • Mild, Non-thermal Process
  • Water or Solvent
  • Simple & Safe Operation

Choose from a Broad Selection of Solvents

Using ultrasonic extraction, you can select from various solvents, including water, alcohol, ethanol, methanol, ethanol-water mixtures or strong solvents such as heptane or hexane. All of the former named solvents have been already successfully tested and shown to be effective for the isolation of bioactive compounds such as alkaloids, terpenoids, phenolics and solanesol from tobacco plant materials. Sonication can be used in solvent-free cold-water extraction (e.g. to prepare organic extracts) or can be combined with a solvent of your choice.
Learn more about solvents for the ultrasonic extraction from botanicals!

Hielscher ultrasonicator UP400St with sonotrode S24d22L2 for extraction of nicotine and harmala from tobacco leaves.

Ultrasonic processor UP400St (400 watts) for the extraction of alkaloids such as nicotine and harmala from tobacco leaves.

High-Performance Ultrasound Extractors

UIP4000hdT (4kW) ultrasonic processor for the extraction of pectins in an industrial inline process.Hielscher’s ultrasonic equipment is a commonly extraction tool for the isolation of bioactive compounds from botanicals. Supplying ultrasonic extractors for all process scales, Hielscher is able to recommend you the most suitable ultrasonic system for your needs. Starting with compact, yet powerful lab systems for analysis and feasibility testing, Hielscher offers the full range from lab and pilot plant ultrasonicators up to fully industrial ultrasound reactors. Offering the full band width of ultrasonic processors, Hielscher has the ideal setup for your extraction process. Depending on your process volume and goal, ultrasonic extraction can be performed in batch or continuous flow mode. Manifold accessories such as sonotrodes, booster horns, flow cells and reactors allow to equip the ultrasonic processor to fulfil the process targets ideally.
Hielscher’s ultrasonic processors can be precisely controlled and process data are automatically recorded on the integrated SD-card of our digital ultrasonic systems. The reliable control over the process parameters ensure a consistently high product quality. The automatic data recording of the process parameters allow for an easy process standardization and the fulfilment of Good Manufacturing Practices (GMP).
The robustness of Hielscher’s ultrasonic equipment allows for 24/7 operation at heavy duty and in demanding environments. Easy and safe operation as well as low maintenance make Hielscher’s ultrasonic systems the reliable work horse in your production.

The table below gives you an indication of the approximate processing capacity of our ultrasonicators:

Batch Volume Flow Rate Recommended Devices
0.5 to 1.5mL n.a. VialTweeter
1 to 500mL 10 to 200mL/min UP100H
10 to 2000mL 20 to 400mL/min UP200Ht, UP400St
0.1 to 20L 0.2 to 4L/min UIP2000hdT
10 to 100L 2 to 10L/min UIP4000
n.a. 10 to 100L/min UIP16000
n.a. larger cluster of UIP16000

Contact us now for further information! Our well-trained staff will be glad to discuss your extraction process with you!

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Hielscher Ultrasonics manufactures high-performance ultrasonicators for sonochemical applications.

High-power ultrasonic processors from lab to pilot and industrial scale.

Facts Worth Knowing

Why is Ultrasonic Extraction so Effective?

Ultrasonically-assisted extraction (UAE) is based on coupling highly intense ultrasound waves (acoustic waves) into a liquid or slurry. The acoustic waves create alternating high pressure / low pressure cycles, which result in the phenomenon of acoustic cavitation. The phenomenon of ultrasonic or acoustic cavitation is characterized by extreme, locally confined conditions of very high pressures, temperatures and shear forces. In proximity of the imploding cavitation bubbles, temperatures of up to 5000K, pressures of 1000 atmosphere, heating-cooling rate above 1010 K/s and liquids jets with up to 280m/s velocity, which appear as very high shear force and turbulences in the cavitational zone, can be measured. The combination of these factors (pressure, heat, shear and turbulence) disrupt cells (lysis) and intensify mass transfer during the extraction process. Thereby, the liquid-solid extraction of phytoconstituents from plant cells is promoted. The ultrasonic extraction technique is widely applied for the successful and efficient extraction of flavonoids, polysaccharides, alkaloids, phytosterols, polyphenols, and pigments from plants.

Ultrasonic disruptors are used for extractions from phyto sources (e.g. plants, algae, fungi)

Ultrasonic extraction from plant cells: the microscopic transverse section (TS) shows the mechanism of actions during ultrasonic extraction from cells (magnification 2000x) [resource: Vilkhu et al. 2011]


Various plants in the Nicotiana genus and the Solanaceae (nightshade) family are known as tobacco plants. Besides being the commonly used term for the plant, tobacco describes also the products prepared from the cured leaves of the tobacco plant. Whilst Nicotiana tabacum is the main crop use for tobacco and nicotine production, there are over 70 plant species of tobacco. N. tabacum is the dominant species used for tobacco products, however the more potent variant N. rustica can be found around the world and is used for.
Tobacco contains the stimulant alkaloid nicotine as well as harmala alkaloids. Dried and cured tobacco leaves are mainly used for smoking in cigarettes, cigars, pipes, shishas as well as e-cigarettes, e-cigars, e-pipes and vaporizers. Alternatively, they can be consumed as snuff, chewing tobacco, dipping tobacco and snus.

The tobacco plant family contains various (sub-)species, which exhibit different alkaloid and flavour profiles.
Oriental tobacco (Nicotiana tabacum L.) is a species of tobacco grown mainly in Turkey, Greece, and neighboring areas, which is used for the commercial production of cigarettes, cigars and chewing tobacco. It has a strong characteristic flavor, is relatively low in nicotine and high in reducing sugars, acids, and volatile flavor oil, which gives the tobacco products an intense aroma.

There are 67 natural species of tobacco known. Below the most common species are listed:

  • Nicotiana acuminata (Graham) Hook. – manyflower tobacco
  • Nicotiana africana Merxm.
  • Nicotiana alata Link & Otto – winged tobacco, jasmine tobacco, tanbaku (Persian)
  • Nicotiana attenuata Torrey ex S. Watson – coyote tobacco
  • Nicotiana benthamiana Domin
  • Nicotiana clevelandii A. Gray
  • Nicotiana glauca Graham – tree tobacco, Brazilian tree tobacco, shrub tobacco, mustard tree
  • Nicotiana glutinosa L.
  • Nicotiana langsdorffii Weinm.
  • Nicotiana longiflora Cav.
  • Nicotiana occidentalis H.-M. Wheeler
  • Nicotiana obtusifolia M. Martens & Galeotti – desert tobacco, punche, “tabaquillo”
  • Nicotiana otophora Griseb.
  • Nicotiana plumbaginifolia Viv.
  • Nicotiana quadrivalvis Pursh
  • Nicotiana rustica L. – Aztec tobacco, mapacho
  • Nicotiana suaveolens Lehm. – Australian tobacco
  • Nicotiana sylvestris Speg. & Comes – South American tobacco, woodland tobacco
  • Nicotiana tabacum L. – commercial tobacco grown for the production of cigarettes, cigars, chewing tobacco, etc.
  • Nicotiana tomentosiformis Goodsp.

The three species below are man-made hybrids:

  • Nicotiana × didepta N. debneyi × N. tabacum
  • Nicotiana × digluta N. glutinosa × N. tabacum
  • Nicotiana × sanderae Hort. ex Wats. N. alata × N. forgetiana

Types of Tobacco
The curing and subsequent aging process of tobacco leaves induces a slow oxidation and degradation of the present carotenoids in tobacco leaf. Due to the oxidation, certain compounds in the tobacco leaves are synthesized, which result in sweet hay, tea, rose oil, or fruity aromatic flavors, which contribute to the “smoothness” of the smoke. Starches are converted into sugars, which subsequently glycate proteins, and are oxidized into advanced glycation endproducts (AGEs). This is a caramelization process that also gives the smoke its flavor.
The preparation and curing method of tobacco influences its final aroma characteristics. Curing can be achieved by air-, fire-, flue-, and sun-curing. For example, flue-cured tobacco (e.g. from France) contains only low levels of alkaloids, whilst air-cured Burley tobacco (e.g. sourced from Guatemala) is known for its high content of alkaloids.