What you can measure

  • Static contact angle
    Sessile drop and captive bubble
  • Dynamic contact angle
    Dynamic contact angle, advancing and receding contact angle and contact angle hysteresis
  • Surface free energy
    Sessile drop and captive bubble
  • Surface- and interfacial tension
    Pendant drop and reverse pendant drop methods

A quick view

This 2-minute video provides you with the basics of measuring under high pressures and high temperatures with Theta High Pressure. Watch it in fullscreen for the best experience!

3 reasons to invest

Optimal for surfactants and brine

With the integrated piston you can increase the pressure without adding more fluid. This allows you to to keep the surfactant concentration constant and corrosive fluids are restricted to the chamber only.

Easy to use

Theta High Pressure has plenty of smart solutions simplifying your work. The sample port enables direct introduction of your sample with a syringe and direct cleaning of the same sample line without passing through a pump. With our optional automatic pump the pressure can be changed with just one click.

Intuitive software

Highly intuitive with high functionality. The OneAttension software facilitates your experiments and provide instant results. The software features live analysis and automatic measurements.

Download brochure

你想获得the full brochure to your inbox?

OneAttension Software

We made our software for Theta High Pressure with you in mind. It is a fine combination of a very intuitive interface and high functionality. Follow your experiment live, and get the results within seconds. OneAttension is analyzing made easy. Let's have a look at the features!

Base unit
Theta Flow
Theta Flex

Available Measurements

Static contact angle and captive bubble
Batch contact angle
Dynamic contact angle
Meniscus contact angle
Surface/Interfacial tension
3D surface roughness and roughness-corrected contact angle
Interfacial rheology
Surface free energy

Zisman Plot, OWRK/Extended Fowkes, van Oss Acid-Base, Wu, Neumann’s Equation of State, Schultz 1 and 2

Software and hardware

Measuring range (°, mN/m)

0…180, 0.01…2000

0…180, 0.01…2000
Accuracy (°, mN/m)

±0.1, ±0.01

±0.1, ±0.01
Maximum sample size (mm)

Unlimited×100×320

Unlimited×100×320 (with stage)
Integrated sample holders
Maximum resolution (px)

2592 x 2048 (5 MP)

1984 × 1264 (2.3 MP)
Maximum measuring speed (fps)

3422

3009
Camera

CMOS 1'' USB 3.0 digital camera with zoom

CMOS 2/3'' USB 3.0 digital camera with zoom
Image focusing

Software-controlled autofocus, manual fine focus in optics

Manual fine focus in optics
Image quality

Enhanced with DropletPlus technology, native

Native
Camera protection

Inside instrument covers

Inside instrument covers
Camera view angle (°)

-4.5 ... 2.5, with digital scale

-4.5 ... 2.5, with mechanical scale
Light source and size

LED based homogeneous background lighting, 62 x 62 mm

LED basedbackground lighting, 62 x 62 mm
Field of view (Ø, mm)

1.44…45.3

1.44…32.3
Measurement indicator LED
Integrated touch display
-
Environment monitoring
-
一次性提示调剂
Software

OneAttension, includes all measurement modes

OneAttension, includes all measurement modes

Dimensions — Basic frame (L×W×H, mm)

765 x 230 x 435

765 x 230 x 435
Weight — Basic frame (kg)

29

26
Power supply (VAC)

100...240

100...240
Frequency (Hz)

50...60

50...60

HPC1

Manual measurements of liquids

HPC1-Auto

Automated measurements of liquids

HPC2-Auto

Automated measurements of liquids and gases

Base unit

Theta Flex Theta Flow Theta Flow

Included high pressure pumps

2 manual pumps 2 automated HPLC pumps 1 automated syringe pump
1 automated HPLC pump

Temperature range

ambient...200C ambient...200C 1...200C

Measurement types

Surface tension, interfacial tension, contact angle, surface free energy

Maximum pressure

400 bar

Chamber volume

85ml (without piston), 40-62ml (with piston)

Pressure control options

Pressure increase by piston or by adding more liquid/gas with pump

Sample introduction and flushing

Through integrated 6-port valve

Max solid sample size

20 mm x 20 mm x 8 mm (xyz)

Dimensions

74 cm x 25 cm x 61 cm (L x W x H) for base unit and chamber

Weight

35-38 kg (base unit and chamber)

Power supply

100 - 240 V AC

Frequency

50 - 60 Hz

OneAttension Software

We made our software for Theta High Pressure with you in mind. It is a fine combination of a very intuitive interface and high functionality. Follow your experiment live, and get the results within seconds. OneAttension is analyzing made easy. Let's have a look at the features!

OneAttension-for-Theta-High-Pressure

OneAttension Features

  • User friendly interface
    To get you going in no time
  • Automatic baseline detection and drop shape fitting
    Less user dependency
  • Pressure stored in software
    Revisit your results and the experimental conditions
  • Full temperature control
    Automatic control between 1... 200 degrees C with optional heating
  • Live analysis
    Instant results ready during the measurements
  • Volume from image
    Droplet volume is detected from the drop shape
  • Autofocus keeps the picture sharp
    Less user-dependency, more accuracy
  • Optimized image quality
    Ultra-high resolution image optimized for reliable results

Accessories and Modules

Added extras give you more possibilities and opportunities in your research. Have a look at what you can complement Theta High Pressure with. You can find the full range of accessories below.

t317a

Resistor temperature control for HPC

Resistor temperature control for T317. Temperature range: ambient…200 °C.

t317b

Peltier temperature control for HPC

Peltier temperature control for T317. Temperature range: 1…70 °C. Includes Peltier element and T102USB (Julabo).

t317l

Automatic liquid pump for HPC

Automatic Shimadzu liquid pump for pressurizing the chamber or creating a droplet of liquid.

t317d

Automatic liquid and gas pump for HPC

Automatic ISCO pump for pressurizing the chamber with liquids or gasses.

What others say

Our instruments are present at many prestigious universities and research facilities worldwide. Take a minute to find out what others say about Theta High Pressure.

citat8

Dr Nassar Group for Nanotechnology Research, Department of Chemical and Petroleum Engineering, University of Calgary

"We are studying the role of naturally-derived nanoparticles in oil and gas application. We use nanoparticles to study foam stability, IFT reduction and wettability studies as well as dilatational interfacial rheological studies."

university-of-calgary-logo-black-and-white

University of Calgary, Canada

"We are utilizing the Attension Theta High Pressure mostly for the IFT and wettability measurements and the PD200 system for the dilatational interfacial rheological measurements. We are satisfied with the performance of all the instruments from Biolin Scientific. The instruments are user friendly and easy to maintain. We are also contented with the after-sales service."

Read more in this Case study

citat8

Jin Haichuan, Beihang University

"We are satisfied with the performance the system and it's also easy to clean the chamber and maintain the system. We are also very satisfied with the after-sales service."

un

Beihang University, China

北京航空航天大学是一个主要的公共研究大学ersity located in Beijing, China. The university emphasizes in engineering, technology, and the hard sciences. Beihang University is using the Theta High Pressure system in their research.

Learn more

We have gathered all our in-depth knowledge associated with Theta High Pressure. Browse around amongst webinars, case studies and white papers to find a topic of your interest.

  • Attension
The Importance of Contact Angle in Industry
Overview

The Importance of Contact Angle in Industry

Get examples of how contact angle measurements are utilized in different industries.

Get it
  • Attension
Enhanced Oil Recovery - Measuring Minimum Miscibility Pressure
Webinar

Enhanced Oil Recovery - Measuring Minimum Miscibility Pressure

Hear Professor Sandro da Rocha on how to determine the pressure at which CO2 is miscible with oil.

Go there
  • Attension
Wettability Alteration in Carbonate Reservoir
Overview

Wettability Alteration in Carbonate Reservoir

You get an introduction to wettability in a carbonate reservoirs and a view of the most used enhanced oil recovery methods.

Get it
  • Attension
Enhanced Oil Recovery using Nanoparticles
Case Study

Enhanced Oil Recovery using Nanoparticles

We show you how nanoparticles can be utilized to enhance oil recovery and how contact angle measurements can be used.

Get it
  • Attension
How do Pressure and Temperature Affect on Wettability?
Overview

How do Pressure and Temperature Affect on Wettability?

In enhanced oil recovery it is important to find out how pressure and temperature affect wettability. We show you how.

Get it
  • Attension
Wettability Measurements for Enhanced Oil Recovery Optimization
White Paper

Wettability Measurements for Enhanced Oil Recovery Optimization

You get an overview of the most relevant wettability measurement methods for enhanced oil recovery optimization.

Download
  • Attension
Effect of Temperature and Pressure on Wettability of Solids
Webinar

Effect of Temperature and Pressure on Wettability of Solids

Listen to Professor Zhenghe Xu sharing his knowledge on bitumen recovery.

Go there
  • Attension
CO2-in-water Foam
Webinar

CO2-in-water Foam

Hear Professor Sandro da Rocha on CO2-in-water foams and how to design surfactants for these systems.

Go there
  • Attension
Contact Angle - What is it and how do you measure it?
White Paper

Contact Angle - What is it and how do you measure it?

Learn more about one of the most used measurement method to study the wettability of the surface.

Download
  • Attension
Surface and Interfacial Tension
White Paper

Surface and Interfacial Tension

Study the different measurement methods to select the best choice for your application.

Download
  • Attension
Surface Tension and Surfactants in Industrial Processes
Webinar

Surface Tension and Surfactants in Industrial Processes

Get an overview of how surfactants are used in industrial processes.

Go there
  • Attension
Using Contact Angle Measurements in Surface Research and Quality Control
Webinar

Using Contact Angle Measurements in Surface Research and Quality Control

Get an understanding about how contact angle measurements are utilized in industry to optimize and control surfaces.

Go there
  • Attension
Working with QCM-D and Contact Angle Measurements under High Pressure - Oil and Gas Applications
Webinar

Working with QCM-D and Contact Angle Measurements under High Pressure - Oil and Gas Applications

Explore the possibilities of performing measurements in high pressure, techniques especially suitable for oil and gas applications.

Go there