Thứ Tư, 30 tháng 10, 2019

Bơm khuấy trộn Silverson

High Shear In-Line Mixers

HSX: Silverson Anh Quốc

Silverson High Shear In-Line mixers are supremely efficient and rapid in operation and are capable of reducing mixing times by up to 90%. The action of any Silverson In-Line mixer can be modified with the use of rapidly interchangeable workheads. This enables any machine to mix, emulsify, homogenize, solubilize, suspend, disperse and disintegrate solids.
Features:
  • Aeration free
  • Self-pumping
  • No bypassing
  • Interchangeable workheads
  • Sanitary construction
  • Easy maintenance
  • Lower power requirements
  • Eliminates agglomerates and fish eyes
  • Creates stable emulsions and suspensions
  • Reduces particle size
  • Rapidly dissolves solids
  • Accelerates reactions

Máy lọc nước khử ion điện tử









New P.Nix EDI 180
Product flow rateMax. 10L/Hr
EDI Product Quality,
TOC
10 to 15 ㏁ -cm , TOC < 30 ppb
Water quality displayFeed water : 0 to 999 ㎲ /cm
RO Water : 0.2 to 250.0 ㎲ /cm
EDI Water : 5 to 15 ㏁ -cm
Standard AccessoriesPretreatment Filters, RO Pack, EDI module, Level Sensor, 254/185 UV Lamp
(Optional)
Dimensions (WxDxH)
300x480 x470mm

EDI Feed Water Conditions

Feed Water
1 to 10 ㎲ /cm
pH
6.0 to 9.0
Temperature
10 to 35℃
CaCO3(Hardness)
< 1.0 ppm
CO2
< 1.0 ppm

CHI TIẾT VUI LÒNG LIÊN HỆ:
MR. QUỐC VIỆT - P KINH DOANH
HOA Ý CO LTD

Tel. 0986817366


Máy lọc nước TOC

HSX: Human | Hàn Quốc


- Certified CE
- Certified ISO 9001, ISO 14001
- Built-in TOC System (Option)
- Obtained GD, QD Mark (Good Design, Qualified Design)
- Awarded the Korean Excellent Products
- Built-in RS 232C Port
- Built-in volumetric dispensing



New P.NIX PowerⅠNew P.NIX PowerⅡNew P.NIX PowerⅢ
Product Flow Rate
(RO.UP)
Max. 15L/HrMax. 25L/HrMax. 35L/Hr
Daily Volume60L/day100L/day120L/day
Water Quality
RO: 0-30 ㎲/cm
UP: ≦18.3MΩcm
Display RangeFeed Water : 0 to 990 ㎲/㎝
Temperature : 0 to 99.9℃ (Option)
Pure wate (RO) : 0.2 to 250.0 ㎲/㎝
Ultra Pure (UP) : Up to 18.3㏁-㎝
ControllerMicroprocess one touch technology
Display16x4 characters backlight LCD digital display
New P.NIX PowerⅡ(TOC)New P.NIX PowerⅢ(TOC)
Product Flow Rate
(RO.UP)
Max. 25L/HrMax. 35L/Hr
Daily Volume100L/day120L/day
Water QualityRO: 0-30 ㎲/cm
UP: ≦18.3MΩcm
Display RangeFeed Water : 0 to 990 ㎲/㎝
Temperature : 0 to 99.9℃ (Option)
Pure wate (RO) : 0.2 to 250.0 ㎲/㎝
Ultra Pure (UP) : Up to 18.3㏁-㎝
TOC : 0 to 200 ppb
ControllerMicroprocess one touch technology
Display16x4 characters backlight LCD digital display

TypeScholarScholar-UVBioIntegrate
PFPF
- 0.2㎛ Final filter
- Pyrogen Free Final filter
- 254/185 UV lamp
- MW 5000 UF filter
- PVDF Dispensing gunOptionOptionOptionOptionOptionOption
Dimensions(WxDxH)390 x 460 x 470㎜ (153.5x181.1x185 inch)
Power210~230V, 50/60㎐, 80W or 110~120V, 50/60Hz, 50W
TOC system
Range : 0 to 200 ppb
Resolution : 1ppb, Reproducibilty : +/- 5% , Accuracy : +/- 10%
Temperature : 5 to 35℃
Composition : Conductivity sensor for TOC...S1, S2
.....................Temp sensor for TOC...T1, T2
.....................184.9mm UV lamp for TOC
.....................UV chamber
.....................Volumetric valve
Error display : 9 message (UV lamp, Temp sensor, TOC value, Over range,etc)
Principle : CO2 is generated by oxidation of the organics in UP water with
184.9nm UV light. It affects the conductivity value (compensated at 25℃)
and TOC value can be messured from this change.

Applications
TypeScholarScholar-UVBioIntegrate
PFPF
Type Ⅰ grade water
Analytical Instruments
AAS, ICP/MS, IC
HPLC, GC,
TOC
Cell & tissue cultuer
In vitro fertilization
Electrophoresis
R Nase, D Nase & DNA free
Molecular Biology

*Applicable Model : Zeneer Power, UP/P.NIX Power, UP/New Human Power, UP/Nex Power, UP Series

Order Information
ModelTypeOrder CodeVoltageColor
New P.Nix Power IScholarPNP1-S-220-BK210~230VBlack
PNP1-S-220-BBlue
PNP1-S-220-RRed
PNP1-S-120-BK110~120VBlack
PNP1-S-120-BBlue
PNP1-S-120-RRed
Scholar-PFPNP1-SF-220-BK210~230VBlack
PNP1-SF-220-BBlue
PNP1-SF-220-RRed
PNP1-SF-120-BK110~120VBlack
PNP1-SF-120-BBlue
PNP1-SF-120-RRed
Scholar-UVPNP1-U-220-BK210~230VBlack
PNP1-U-220-BBlue
PNP1-U-220-RRed
PNP1-U-120-BK110~120VBlack
PNP1-U-120-BBlue
PNP1-U-120-RRed
Scholar-UVPFPNP1-UF-220-BK210~230VBlack
PNP1-UF-220-BBlue
PNP1-UF-220-RRed
PNP1-UF-120-BK110~120VBlack
PNP1-UF-120-BBlue
PNP1-UF-120-RRed
BioPNP1-B-220-BK210~230VBlack
PNP1-B-220-BBlue
PNP1-B-220-RRed
PNP1-B-120-BK110~120VBlack
PNP1-B-120-BBlue
PNP1-B-120-RRed
IntegratePNP1-I-220-BK210~230VBlack
PNP1-I-220-BBlue
PNP1-I-220-RRed
PNP1-I-120-BK110~120VBlack
PNP1-I-120-BBlue
PNP1-I-120-RRed
New P.Nix Power IIScholarPNP2-S-220-BK210~230VBlack
PNP2-S-220-BBlue
PNP2-S-220-RRed
PNP2-S-120-BK110~120VBlack
PNP2-S-120-BBlue
PNP2-S-120-RRed
Scholar-PFPNP2-SF-220-BK210~230VBlack
PNP2-SF-220-BBlue
PNP2-SF-220-RRed
PNP2-SF-120-BK110~120VBlack
PNP2-SF-120-BBlue
PNP2-SF-120-RRed
Scholar-UVPNP2-U-220-BK210~230VBlack
PNP2-U-220-BBlue
PNP2-U-220-RRed
PNP2-U-120-BK110~120VBlack
PNP2-U-120-BBlue
PNP2-U-120-RRed
Scholar-UVPFPNP2-UF-220-BK210~230VBlack
PNP2-UF-220-BBlue
PNP2-UF-220-RRed
PNP2-UF-120-BK110~120VBlack
PNP2-UF-120-BBlue
PNP2-UF-120-RRed
BioPNP2-B-220-BK210~230VBlack
PNP2-B-220-BBlue
PNP2-B-220-RRed
PNP2-B-120-BK110~120VBlack
PNP2-B-120-BBlue
PNP2-B-120-RRed
IntegratePNP2-I-220-BK210~230VBlack
PNP2-I-220-BBlue
PNP2-I-220-RRed
PNP2-I-120-BK110~120VBlack
PNP2-I-120-BBlue
PNP2-I-120-RRed
New P.Nix Power IIIScholarPNP3-S-220-BK210~230VBlack
PNP3-S-220-BBlue
PNP3-S-220-RRed
PNP3-S-120-BK110~120VBlack
PNP3-S-120-BBlue
PNP3-S-120-RRed
Scholar-PFPNP3-SF-220-BK210~230VBlack
PNP3-SF-220-BBlue
PNP3-SF-220-RRed
PNP3-SF-120-BK110~120VBlack
PNP3-SF-120-BBlue
PNP3-SF-120-RRed
Scholar-UVPNP3-U-220-BK210~230VBlack
PNP3-U-220-BBlue
PNP3-U-220-RRed
PNP3-U-120-BK110~120VBlack
PNP3-U-120-BBlue
PNP3-U-120-RRed
Scholar-UVPFPNP3-UF-220-BK210~230VBlack
PNP3-UF-220-BBlue
PNP3-UF-220-RRed
PNP3-UF-120-BK110~120VBlack
PNP3-UF-120-BBlue
PNP3-UF-120-RRed
BioPNP3-B-220-BK210~230VBlack
PNP3-B-220-BBlue
PNP3-B-220-RRed
PNP3-B-120-BK110~120VBlack
PNP3-B-120-BBlue
PNP3-B-120-RRed
IntegratePNP3-I-220-BK210~230VBlack
PNP3-I-220-BBlue
PNP3-I-220-RRed
PNP3-I-120-BK110~120VBlack
PNP3-I-120-BBlue
PNP3-I-120-RRed
New P.Nix Power II (TOC)Scholar-UVPNP2-TU-220-BK210~230VBlack
PNP2-TU-220-BBlue
PNP2-TU-220-RRed
PNP3-TU-120-BK110~120VBlack
PNP3-TU-120-BBlue
PNP3-TU-120-RRed
Scholar-UVPFPNP2-TUF-220-BK210~230VBlack
PNP2-TUF-220-BBlue
PNP2-TUF-220-RRed
PNP2-TUF-120-BK110~120VBlack
PNP2-TUF-120-BBlue
PNP2-TUF-120-RRed
IntegratePNP2-TI-220-BK210~230VBlack
PNP2-TI-220-BBlue
PNP2-TI-220-RRed
PNP2-TI-120-BK110~120VBlack
PNP2-TI-120-BBlue
PNP2-TI-120-RRed
New P.Nix Power III (TOC)Scholar-UVPNP3-TU-220-BK210~230VBlack
PNP3-TU-220-BBlue
PNP3-TU-220-RRed
PNP3-TU-120-BK110~120VBlack
PNP3-TU-120-BBlue
PNP3-TU-120-RRed
Scholar-UVPFPNP3-TUF-220-BK210~230VBlack
PNP3-TUF-220-BBlue
PNP3-TUF-220-RRed
PNP3-TUF-120-BK110~120VBlack
PNP3-TUF-120-BBlue
PNP3-TUF-120-RRed
IntegratePNP3-TI-220-BK210~230VBlack
PNP3-TI-220-BBlue
PNP3-TI-220-RRed
PNP3-TI-120-BK110~120VBlack
PNP3-TI-120-BBlue
PNP3-TI-120-RRed


Human Water Purification Systerm - Máy lọc nước dùng trong phòng thí nghiệm

HSX: Human
Xuất xứ: Hàn Quốc



Máy lọc nước RO: http://www.humancorp.co.kr/g4/bbs/board.php?bo_table=eng_001&wr_id=54

Máy lọc nước UP:

http://www.humancorp.co.kr/g4/bbs/board.php?bo_table=eng_001&wr_id=58

Máy lọc nước siêu sạch, RO & UP tích hợp:

Certified CE
• ISO 9001, ISO 14001
• Obtained GD, QD Mark (Good Design, Qualified Design)
• Awarded the Korean Excellent Products
• Awarded “Top 100 Excellent Patented Products”
• Auto calibration for water sensors
• Auto regular recycling every hour
• Standby function : Auto recycling lower than setting value.
• Programmable by 2 steps for the filter exchanges to maintain water quality.


New Human Power INew Human Power IINew Human Power III
Product flow rate (RO.UP)
Max.15L/Hr
Max.25L/Hr
Max.35L/Hr
Daily Volume60L/day100L/day120L/day
Water Quality
RO: 0-30 ㎲/cm
UP: ≦18.3MΩcm
Display Range
Feed water : 0 to 999㎲/cm (Optional)
Temperature : 0 to 99.9℃ (Optional)
Pure water : 0.0 to 250.0㎲/cm
Ultra pure : 0.0 to 18.3㏁-㎝
Controller
Microprocess one Touch technology
Display16 x 2 Characters Backlight LCD Digital Display
TypeScholarScholar-UVBioIntegrate
PFPF
Water Quality
- TOC(ppb)5 -100 - 55 - 100 - 5
- Endotoxin(Eu/㎖)NA<0.125NA<0.125< 0.001< 0.001
- Bacteria (cfu/㎖)< 1< 1< 1< 1
- Particles (>0.22㎛/㎖)< 1< 1< 1< 1
Controller Functions1. Self Test : Self-test for diagnosing operating conditions.(Internal/External)
2. Auto cleaning
3. Built-in auto sensor calibration
4. Built-in auto reset function
5. Filter exchange indicator
Safety function1. Low pressure of tap water
2. Automatic motor stop functions
Optional function① PVDF¼dispensing gun ② Pretreatment System
Dimensions
(W x D x H)
400×567×510mm (157.5×223.2 ×200.8 inch)
Power210~230V, 50/60Hz, 80W or 110~120V, 50/60Hz, 50W

TypeScholarScholar-UVBioIntegrate
PFPF
Type Ⅰ grade water
Analytical Instruments
AAS, ICP/MS, IC
HPLC, GC
TOC
Cell & tissue cultuer
In vitro fertilization
Electrophoresis
R Nase, D Nase & DNA free
Molecular Biology

Thứ Sáu, 18 tháng 10, 2019

Cột sắc ký HPLC Hamilton

Hplc Hero Group

HPLC Stationary phases for a broad range of separations

For more than 35 years, Hamilton Company has developed and manufactured pressure-stable, polymeric polystyrene-divinylbenzene (PS-DVB) HPLC columns that are used in most of the world’s top chromatography labs. With a wide range of particle sizes, pore sizes, pH stability from 1 to 14, temperature resistance over 100°C, and chemistries to match most analyte types, Hamilton polymeric columns are the chromatographer's choice for challenging separations.

Reversed-Phase HPLC Columns

Hamilton reversed-phase HPLC columns combine the best characteristics of silica-based and polymeric columns to arrive at a product that is highly inert and long-lasting. Hamilton offers four polymeric and two silica-based packing materials for reversed-phase separations.
PS-DVB resins are similar in retention characteristics to silica C18s in that retention tends to increase with lipophilicity. However, subtle differences in the chemical interaction between the analyte and stationary phase can result in differential selectivity. In many cases, analytes that co-elute on a silica C18 can be resolved on a polymeric-based support. The PRP-1 consists of a 55% cross-linked PS-DVB bead containing 100 Å pores. The properties of this base material intrinsically lend themselves to reversed-phase separations with no further surface modifications. The PRP-C18 uses the PRP-1 as the base support material with the addition of octadecyl to impart characteristics more closely related to a silica-based C18, giving slightly different selectivity than the PRP-1. To make the PRP-3, the PRP-1 is modified so that the base material contains 300 Å pores, which allows for the separation of larger molecules. The PRP-h5 utilizes the PRP-1 as its base with a pentafluorinated modification, making it more hydrophobic in nature.

Anion Exchange

Hplc Hero Ss Focal On Peek 1643

In anion exchange chromatography, the stationary bed has an ionically positive (+) charged surface while the sample ions are of negative (-) charge. This technique is used almost exclusively with ionic or ionizable samples. The stronger the negative charge on the sample, the stronger it will be attracted to the positive charge on the stationary phase, and thus the longer it will take to elute. Elution in ion chromatography is effected by mobile phase pH and ionic-strength, and, to a lesser extent, operation temperature. The ability to use the full pH range and elevated temperatures are distinct advantages compared to silica-based supports.
Anion Exchange Capacity
Anion exchange capacity is a measurement of the number of negative charges (anions) that the exchange resin can bind to and is reported in singly charged ion equivalents per 1 gram of resin. Exchange capacity is dependent upon the pH of the mobile phase and in anion exchange chromatography; as mobile phase acidity decreases (pH increases), the exchange capacity decreases.
Hamilton offers six polymeric packing materials for anion exchange separations.


Cation Exchange

In cation exchange chromatography, the stationary bed has an ionically negative (-) charged surface while the sample ions are of positive (+) charge. This technique is used almost exclusively with ionic or ionizable samples. The stronger the positive (+) charge on the sample, the stronger it will be attracted to the negative charge on the stationary phase, and thus the longer it will take to elute. The mobile phase is an aqueous buffer, where both pH and ionic strength are used to control elution time. Ion chromatography can employ harsh conditions requiring mobile phases that are at very high pH limits (> 11). Temperatures well above the normal operating conditions where silica materials fail can also be used.
Cation Exchange Capacity
Ion exchange capacity is a measurement of the number of positive charges (cations) that the exchange resin can bind to and is reported in singly charged ion equivalents per 1 gram of resin. Exchange capacity is dependent upon the pH of the mobile phase and in cation exchange chromatography; as mobile phase acidity decreases (pH increases), the exchange capacity increases.

Ion Exclusion

Ion exclusion chromatography is an alternative to ion exchange chromatography in which ionized samples are excluded from the pores of the support and elute first, while the weakly ionized and non-ionic compounds elute later. Mixtures of weak acids, like those in fruits and milk products, are frequently not very well separated by pure ion-exchange methods, nor in the reversed-phase mode.

Prp X300

Hamilton PRP-X300 columns offer an easy, rapid way to separate closely related alcohols and organic acids. The sulfonated poly(styrenedivinylbenzene) support separates samples via a mixed mode mechanism. Separation on the PRP-X300 is accomplished by three modes: hydrogen bonding, reversed-phase, and ion exclusion. PRP-X300 column selectivity can be altered by changing the pH of the buffer or adding an organic modifier (e.g., methanol, acetonitrile). The support’s stability to organic solvents makes it possible to analyze samples that are too highly retained on conventional ion exclusion supports.
Application Examples: Organic acids and alcohols