ENVEA designs and produces a complete range of state of the art CEMS gas and dust analyzers, sampling systems, data acquisition systems and software for the continuous measurement & reporting of stack pollutants.
With the global focus on emissions, the Group helps its clients quickly achieve environmental compliance in the most cost-effective manner.
Industrial emissions monitoring regulations vary from country to country, and the measurement technology must be assessed for suitability and in accordance with local requirements and standards.
Our solutions are fully compliant with the latest European and International regulations & standards.
W3/060 is based on cup method to measure water vapor transmission rate of plastic films, foils and finished packages. It has Six independent testing cells and can be easily connected with 9 satellite systems.
GC-7800 is a classical gas chromatograph instrument which integrates the most advanced chromatography technique and national or international standards with the most extensive applications by the experienced experts of Labthink.
GC-7800 with autosampler is a classical and high automation gas chromatograph instrument which integrates the most advanced chromatography technique and national or international standards with the most extensive applications by the experienced experts of Labthink
SELON HPLC System Introduction ( LC-100 & EX-1600 & EX-1700 )Mandy Yang
SELON new HPLC series, launched in 2018, we have chinese leading technology and economic price.We have infusion pumps, various detectors, manual sampler, automatic sampler, chromatographic column, etc.We can provide suitable configuration according to your different requirements.Please write to us for quotations.At the same time, we are very welcome you to visit our factory.We have own lab and an excellent team of engineers.Please don't hesitate to email us.
export2@selon-group.com
www.selon-group.com
ENVEA designs and produces a complete range of state of the art CEMS gas and dust analyzers, sampling systems, data acquisition systems and software for the continuous measurement & reporting of stack pollutants.
With the global focus on emissions, the Group helps its clients quickly achieve environmental compliance in the most cost-effective manner.
Industrial emissions monitoring regulations vary from country to country, and the measurement technology must be assessed for suitability and in accordance with local requirements and standards.
Our solutions are fully compliant with the latest European and International regulations & standards.
W3/060 is based on cup method to measure water vapor transmission rate of plastic films, foils and finished packages. It has Six independent testing cells and can be easily connected with 9 satellite systems.
GC-7800 is a classical gas chromatograph instrument which integrates the most advanced chromatography technique and national or international standards with the most extensive applications by the experienced experts of Labthink.
GC-7800 with autosampler is a classical and high automation gas chromatograph instrument which integrates the most advanced chromatography technique and national or international standards with the most extensive applications by the experienced experts of Labthink
SELON HPLC System Introduction ( LC-100 & EX-1600 & EX-1700 )Mandy Yang
SELON new HPLC series, launched in 2018, we have chinese leading technology and economic price.We have infusion pumps, various detectors, manual sampler, automatic sampler, chromatographic column, etc.We can provide suitable configuration according to your different requirements.Please write to us for quotations.At the same time, we are very welcome you to visit our factory.We have own lab and an excellent team of engineers.Please don't hesitate to email us.
export2@selon-group.com
www.selon-group.com
University Institute of Pharmaceutical Sciences is a flag bearer of excellence in Pharmaceutical education and research in the country. Here is another initiative to make study material available to everyone worldwide. Based on the new PCI guidelines and syllabus here we have a presentation dealing with qualifications of HPLC which is the " High Performance Liquid Chromatography".
Thank you for reading.
Hope it was of help to you.
UIPS,PU team
This presentation explains about qualifications of HPTLC, types of qualifications, design qualification , installation qualification ,operational qualification, performance qualification ,documentation of qualification .
Highly responsive touchscreen for ease of operation The model 1077L Viscometer+ features an ultra responsive projective capacitive touchscreen which has a unique IECEx & ATEX Zone 1 IIC rating without the need for air purge.
W3/330 system is based on the electrolytic sensor method to measure water vapor transmission rate of film and package specimens. It has three independent testing cells and can be easily connected with 9 satellite systems.
Life Cycle Management of Chromatographic Methods for BiopharmaceuticalsWaters Corporation
The development and manufacture of biopharmaceuticals is a dynamic and rapidly growing industry. By the nature of their production, biopharmaceuticals are highly complex heterogeneous mixtures that require many analytical techniques for characterization and routine testing. As a result, many manufacturers incorporate life cycle management into their respective workflows to take advantage of newer technologies and methodologies to ensure efficacy and patient safety.
In this presentation, we will address the range of chromatographic categories – HPLC, UHPLC, and UPLC – and define the characteristics associated with each. The discussion will continue with several examples of methods transferred from legacy HPLC instrumentation to modern UHPLC and UPLC instruments. We will compare qualitative and quantitative data across each chromatographic class. Resolution, sensitivity, and overall run time will be used as metrics to assess the success of the method transfer to the respective LC platform, to ensure the transferred methods are in line with current acceptance criteria.
Learn:
- The importance of selecting the correct instrumentation to meet user needs.
- Which parameters influence method transfer from one LC platform to another.
- How workflows can benefit from features such as Multi-flow path technology and Gradient SmartStart when transitioning methods.
Interested in more detail? Watch the related on-demand webinar: http://view6.workcast.net/register?pak=3479247014905635
Simplifying Chromatographic Methods Transfer: Novel Tools for Replicating You...Waters Corporation
Gain a good understanding on the parameters that impact the successful transfer of an LC method from one instrument to another as well as some of the novel tools (i.e., Arc Multi-flow path technology and gradient SmartStart) that have been created to enable the ACQUITY Arc System to replicate established HPLC methods from previous generations of LC equipment.
Transfer of established gradient reversed-phase methods across both HPLC and UHPLC chromatographic instrumentation requires careful consideration of each instrument’s operating parameters and design. The dwell volume, or the system volume between when the solvents are first mixed and the head of the column, can impact the separation. In addition to the dwell volume, the manner in which the solvents are mixed and the formation of the gradient can also vary from one type of LC system to another. Finally, the manner in which the column and solvent are heated can also effect the separation, specifically whether or not the solvent is passively or actively heated prior to the column, or if the air is static or circulated within the column oven.
To understand the effect of these factors may have on methods transfer, both method conditions and instrument specifications must be factored and evaluated when transferring an LC method from one instrument to another.
Understanding the Impact of Chromatographic System Dispersion on Separation P...Waters Corporation
The last 10 years have seen substantial improvements in both chromatographic columns and instrumentation that have enabled faster and more efficient separations. The once common 4.6 x 150 mm column packed with 5 µm particles has been gradually replaced by smaller columns packed with smaller solid-core particles. To maximize the performance of these highly efficient solid-core particles one must understand the impact that instrument dispersion has on the chromatographic separation.
Webinar - Pharmacopeial Modernization: How Will Your Chromatography Workflow ...Waters Corporation
In this webinar, Dr. Leonel Santos and Dr. Horacio Pappa from the United States Pharmacopeia (USP) will provide an overview of its pharmacopeial harmonization and modernization efforts. The pair will also review changes described in the pending USP General Chapter <621> on liquid chromatography (LC), which will provide increased flexibility for gradient methods.
Amanda Dlugasch, from Waters Corporation, will follow with an illuminating case study, which leverages USP <621> allowable adjustments to illustrate the benefits of modernizing methods, including migrating HPLC methods to UHPLC or UPLC, without the need to revalidate.
Topics covered in this webinar will include:
- Pharmacopeial monograph modernization prioritization scheme
- Review of USP General Chapter <621> current allowable adjustments to validated chromatographic methods and forthcoming updates
- Case study on the migration of isocratic and gradient pharmacopeial methods to modern chromatography column technology, highlighting improved method performance and throughput
Replay the webinar, hosted by SelectScience:
https://www.selectscience.net/webinars/pharmacopeial-modernization-how-will-your-chromatography-workflow-benefit/?webinarID=1228
Direct Mercury Analyzer for analysis of liquid, solid and gaseous samples
DMA which uses the principle of thermal decomposition, amalgamation and atomic absorption.
The DMA-80 can analyze solid, liquid and gas matrices with equal precision.
All mercury is released from the sample through thermal decomposition.
This eliminates the need for any sample preparation.
GC-7800 with autosampler is a classical and high automation gas chromatograph instrument which integrates the most advanced chromatography technique and national or international standards with the most extensive applications by the experienced experts of Labthink.
OX2/230 is professionally designed for the determination of oxygen transmission rate of film and package specimens. This instrument is applicable to various materials with high, medium and low oxygen permeability.
University Institute of Pharmaceutical Sciences is a flag bearer of excellence in Pharmaceutical education and research in the country. Here is another initiative to make study material available to everyone worldwide. Based on the new PCI guidelines and syllabus here we have a presentation dealing with qualifications of HPLC which is the " High Performance Liquid Chromatography".
Thank you for reading.
Hope it was of help to you.
UIPS,PU team
This presentation explains about qualifications of HPTLC, types of qualifications, design qualification , installation qualification ,operational qualification, performance qualification ,documentation of qualification .
Highly responsive touchscreen for ease of operation The model 1077L Viscometer+ features an ultra responsive projective capacitive touchscreen which has a unique IECEx & ATEX Zone 1 IIC rating without the need for air purge.
W3/330 system is based on the electrolytic sensor method to measure water vapor transmission rate of film and package specimens. It has three independent testing cells and can be easily connected with 9 satellite systems.
Life Cycle Management of Chromatographic Methods for BiopharmaceuticalsWaters Corporation
The development and manufacture of biopharmaceuticals is a dynamic and rapidly growing industry. By the nature of their production, biopharmaceuticals are highly complex heterogeneous mixtures that require many analytical techniques for characterization and routine testing. As a result, many manufacturers incorporate life cycle management into their respective workflows to take advantage of newer technologies and methodologies to ensure efficacy and patient safety.
In this presentation, we will address the range of chromatographic categories – HPLC, UHPLC, and UPLC – and define the characteristics associated with each. The discussion will continue with several examples of methods transferred from legacy HPLC instrumentation to modern UHPLC and UPLC instruments. We will compare qualitative and quantitative data across each chromatographic class. Resolution, sensitivity, and overall run time will be used as metrics to assess the success of the method transfer to the respective LC platform, to ensure the transferred methods are in line with current acceptance criteria.
Learn:
- The importance of selecting the correct instrumentation to meet user needs.
- Which parameters influence method transfer from one LC platform to another.
- How workflows can benefit from features such as Multi-flow path technology and Gradient SmartStart when transitioning methods.
Interested in more detail? Watch the related on-demand webinar: http://view6.workcast.net/register?pak=3479247014905635
Simplifying Chromatographic Methods Transfer: Novel Tools for Replicating You...Waters Corporation
Gain a good understanding on the parameters that impact the successful transfer of an LC method from one instrument to another as well as some of the novel tools (i.e., Arc Multi-flow path technology and gradient SmartStart) that have been created to enable the ACQUITY Arc System to replicate established HPLC methods from previous generations of LC equipment.
Transfer of established gradient reversed-phase methods across both HPLC and UHPLC chromatographic instrumentation requires careful consideration of each instrument’s operating parameters and design. The dwell volume, or the system volume between when the solvents are first mixed and the head of the column, can impact the separation. In addition to the dwell volume, the manner in which the solvents are mixed and the formation of the gradient can also vary from one type of LC system to another. Finally, the manner in which the column and solvent are heated can also effect the separation, specifically whether or not the solvent is passively or actively heated prior to the column, or if the air is static or circulated within the column oven.
To understand the effect of these factors may have on methods transfer, both method conditions and instrument specifications must be factored and evaluated when transferring an LC method from one instrument to another.
Understanding the Impact of Chromatographic System Dispersion on Separation P...Waters Corporation
The last 10 years have seen substantial improvements in both chromatographic columns and instrumentation that have enabled faster and more efficient separations. The once common 4.6 x 150 mm column packed with 5 µm particles has been gradually replaced by smaller columns packed with smaller solid-core particles. To maximize the performance of these highly efficient solid-core particles one must understand the impact that instrument dispersion has on the chromatographic separation.
Webinar - Pharmacopeial Modernization: How Will Your Chromatography Workflow ...Waters Corporation
In this webinar, Dr. Leonel Santos and Dr. Horacio Pappa from the United States Pharmacopeia (USP) will provide an overview of its pharmacopeial harmonization and modernization efforts. The pair will also review changes described in the pending USP General Chapter <621> on liquid chromatography (LC), which will provide increased flexibility for gradient methods.
Amanda Dlugasch, from Waters Corporation, will follow with an illuminating case study, which leverages USP <621> allowable adjustments to illustrate the benefits of modernizing methods, including migrating HPLC methods to UHPLC or UPLC, without the need to revalidate.
Topics covered in this webinar will include:
- Pharmacopeial monograph modernization prioritization scheme
- Review of USP General Chapter <621> current allowable adjustments to validated chromatographic methods and forthcoming updates
- Case study on the migration of isocratic and gradient pharmacopeial methods to modern chromatography column technology, highlighting improved method performance and throughput
Replay the webinar, hosted by SelectScience:
https://www.selectscience.net/webinars/pharmacopeial-modernization-how-will-your-chromatography-workflow-benefit/?webinarID=1228
Direct Mercury Analyzer for analysis of liquid, solid and gaseous samples
DMA which uses the principle of thermal decomposition, amalgamation and atomic absorption.
The DMA-80 can analyze solid, liquid and gas matrices with equal precision.
All mercury is released from the sample through thermal decomposition.
This eliminates the need for any sample preparation.
GC-7800 with autosampler is a classical and high automation gas chromatograph instrument which integrates the most advanced chromatography technique and national or international standards with the most extensive applications by the experienced experts of Labthink.
OX2/230 is professionally designed for the determination of oxygen transmission rate of film and package specimens. This instrument is applicable to various materials with high, medium and low oxygen permeability.
G2/110 is based on the combination of differential pressure method and chromatography analysis technology. It is the only instrument in the market so far that provides the quantitative and qualitative analysis of gas permeability of sole gas or mixed gases in separation membranes.
G2/110 is based on the combination of differential pressure method and chromatography analysis technology. It is the only instrument in the market so far that provides the quantitative and qualitative analysis of gas permeability of sole gas or mixed gases in separation membranes.
G2/110 Separation Membrane Permeability Analyzer
G2/110 is based on the combination of differential pressure method and chromatography analysis technology. It is the only instrument in the market so far that provides the quantitative and qualitative analysis of gas permeability of sole gas or mixed gases in separation membranes.
Modular systems for precision oxygen analysis
of packaging film barriers. Systech Illinois 8000 Series analysers offer the widest measurement range in the market.
GC-7800 is a classical gas chromatograph instrument which integrates the most advanced chromatography technique and national or international standards with the most extensive applications by the experienced experts of Labthink.
KML is well equipped with sophisticated apparatus managed by our veteran professionals, Catering to your quality certification and assurance requirements.
MGT-01 is based on the combination of differential pressure method and chromatography analysis technology. It is the only instrument in the market so far that provides the quantitative and qualitative analysis of gas permeability of various components of mixed gas.
Based on statistical analysis, data reliability
Sensors can be loaded directly into the reactor or pipe
No need to sample
Online operation can be applied to the Petri dish, beaker, reactor etc.
Process stability control
Rapid development of new formula
24h high quality production
Pacorr Melt Flow Index tester is used for evaluating the flow properties of molten plastics or resins. The Melt flow Index
of thermoplastic materials is defined as the rate of flow (in grams per ten minutes) of extrudates of molten resins through a
jet of a particular length and diameter.
G2/131 is based on differential pressure method and applicable to the determination of gas transmission rate, solubility coefficient, diffusion coefficient and permeability coefficient of barrier materials and packages at different temperatures.
G2/131 is based on differential pressure method and applicable to the determination of gas transmission rate, solubility coefficient, diffusion coefficient and permeability coefficient of barrier materials and packages at different temperatures.
G2/131 is based on differential pressure method and applicable to the determination of gas transmission rate, solubility coefficient, diffusion coefficient and permeability coefficient of barrier materials and packages at different temperatures.
GC-6890 Gas Chromatograph can be used to measure residual solvent for packaging industry or other related industries and detecting institutions. It is the best choice for the determination of residual solvent, smell analysis, and solvent purity.
Similar to Salas 70 pages - master slide show - chris and sabina 21.01.2015 (20)
Epistemic Interaction - tuning interfaces to provide information for AI supportAlan Dix
Paper presented at SYNERGY workshop at AVI 2024, Genoa, Italy. 3rd June 2024
https://alandix.com/academic/papers/synergy2024-epistemic/
As machine learning integrates deeper into human-computer interactions, the concept of epistemic interaction emerges, aiming to refine these interactions to enhance system adaptability. This approach encourages minor, intentional adjustments in user behaviour to enrich the data available for system learning. This paper introduces epistemic interaction within the context of human-system communication, illustrating how deliberate interaction design can improve system understanding and adaptation. Through concrete examples, we demonstrate the potential of epistemic interaction to significantly advance human-computer interaction by leveraging intuitive human communication strategies to inform system design and functionality, offering a novel pathway for enriching user-system engagements.
Accelerate your Kubernetes clusters with Varnish CachingThijs Feryn
A presentation about the usage and availability of Varnish on Kubernetes. This talk explores the capabilities of Varnish caching and shows how to use the Varnish Helm chart to deploy it to Kubernetes.
This presentation was delivered at K8SUG Singapore. See https://feryn.eu/presentations/accelerate-your-kubernetes-clusters-with-varnish-caching-k8sug-singapore-28-2024 for more details.
GDG Cloud Southlake #33: Boule & Rebala: Effective AppSec in SDLC using Deplo...James Anderson
Effective Application Security in Software Delivery lifecycle using Deployment Firewall and DBOM
The modern software delivery process (or the CI/CD process) includes many tools, distributed teams, open-source code, and cloud platforms. Constant focus on speed to release software to market, along with the traditional slow and manual security checks has caused gaps in continuous security as an important piece in the software supply chain. Today organizations feel more susceptible to external and internal cyber threats due to the vast attack surface in their applications supply chain and the lack of end-to-end governance and risk management.
The software team must secure its software delivery process to avoid vulnerability and security breaches. This needs to be achieved with existing tool chains and without extensive rework of the delivery processes. This talk will present strategies and techniques for providing visibility into the true risk of the existing vulnerabilities, preventing the introduction of security issues in the software, resolving vulnerabilities in production environments quickly, and capturing the deployment bill of materials (DBOM).
Speakers:
Bob Boule
Robert Boule is a technology enthusiast with PASSION for technology and making things work along with a knack for helping others understand how things work. He comes with around 20 years of solution engineering experience in application security, software continuous delivery, and SaaS platforms. He is known for his dynamic presentations in CI/CD and application security integrated in software delivery lifecycle.
Gopinath Rebala
Gopinath Rebala is the CTO of OpsMx, where he has overall responsibility for the machine learning and data processing architectures for Secure Software Delivery. Gopi also has a strong connection with our customers, leading design and architecture for strategic implementations. Gopi is a frequent speaker and well-known leader in continuous delivery and integrating security into software delivery.
UiPath Test Automation using UiPath Test Suite series, part 4DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 4. In this session, we will cover Test Manager overview along with SAP heatmap.
The UiPath Test Manager overview with SAP heatmap webinar offers a concise yet comprehensive exploration of the role of a Test Manager within SAP environments, coupled with the utilization of heatmaps for effective testing strategies.
Participants will gain insights into the responsibilities, challenges, and best practices associated with test management in SAP projects. Additionally, the webinar delves into the significance of heatmaps as a visual aid for identifying testing priorities, areas of risk, and resource allocation within SAP landscapes. Through this session, attendees can expect to enhance their understanding of test management principles while learning practical approaches to optimize testing processes in SAP environments using heatmap visualization techniques
What will you get from this session?
1. Insights into SAP testing best practices
2. Heatmap utilization for testing
3. Optimization of testing processes
4. Demo
Topics covered:
Execution from the test manager
Orchestrator execution result
Defect reporting
SAP heatmap example with demo
Speaker:
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
Encryption in Microsoft 365 - ExpertsLive Netherlands 2024Albert Hoitingh
In this session I delve into the encryption technology used in Microsoft 365 and Microsoft Purview. Including the concepts of Customer Key and Double Key Encryption.
Software Delivery At the Speed of AI: Inflectra Invests In AI-Powered QualityInflectra
In this insightful webinar, Inflectra explores how artificial intelligence (AI) is transforming software development and testing. Discover how AI-powered tools are revolutionizing every stage of the software development lifecycle (SDLC), from design and prototyping to testing, deployment, and monitoring.
Learn about:
• The Future of Testing: How AI is shifting testing towards verification, analysis, and higher-level skills, while reducing repetitive tasks.
• Test Automation: How AI-powered test case generation, optimization, and self-healing tests are making testing more efficient and effective.
• Visual Testing: Explore the emerging capabilities of AI in visual testing and how it's set to revolutionize UI verification.
• Inflectra's AI Solutions: See demonstrations of Inflectra's cutting-edge AI tools like the ChatGPT plugin and Azure Open AI platform, designed to streamline your testing process.
Whether you're a developer, tester, or QA professional, this webinar will give you valuable insights into how AI is shaping the future of software delivery.
2. We studied your company prior to
making presentation:
Company facts here
We are here to “Listen and Learn”
Our goal is to:
About You:
Identify needs;
Determine your ultimate goal;
Proposing creative, durable solutions;
Provide guaranteed customer service;
That is the commitment of SALAS
consultants
3. Two Partners – Privately Held
Company registered in Province of
Ontario ( Midland, ON – Head Office )
Russian Partner has 20 years experience
in Mining and Laboratory Equipment
Canadian Partner has 13 years experience
in Drilling, Exploration, and Mining
Technologies . 15 years renewable energy
experience.
GOAL: To bring proven, cost effective,
more efficient - Sampling, Automation,
Lab & Assay Supplies to Mining
Companies in North and South America.
Where we have done business
About Us:
China
Kazakhstan
Australia
Tajikistan
Canada
United States
South Africa
Chile
Peru
Mexico
Russia
Uzbekistan
4. Slides in this Section
Sampling dry materials
Sampling slurry materials
5. Schematic Drawing
Example of system taking sample 300mm
Receiving the end representative sample
Systems more specific for each mine can be
developed by SALAS.
Free initial drawings available for qualified
buyers with project specifics that they can
supply.
Sampling Design
6. Advantages Sampling wet or dry
Sampling
Cross all stream
Accurate for taking samples
Pneumatic driver
Easily maintained
Self lubricating
10. Model PRO 20 ( angle view ) Model PRO 20 ( side view )
Sampling
11. Specifications
Fully enclosed unit containing a rotating
sample cutter that passes at constant speed
through the falling stream of slurry or free
flowing solids entering it. Correct cutter
geometry design ensures radial cutter
edges accurately cut a fixed portion of the
stream. The portion of the stream sampled
by the cutter is diverted to the customer’s
sample collection system while the
remainder passes through for continuous
discharge.
VEZIN
Sampling Equipment
12. Specifications
One, two or four cutters can be fitted to
ensure a representative sample is collected.
The cutters and liners are readily
replaceable in the field.
VEZIN
Sampling Equipment
13. Desription
The UNICAL® Density Analyser is portable,
hand-held calibration tool for the
Production Supervisor or Instrument
Technician. Fast system.
Stainless steel sampling flasks in one or 10
litre capacity.
Certified calibration weights to allow rapid
verification of the analyser accuracy
UNICAL
Sampling
14. Advantage of “Rapide” System
Small volume of sample
Express analysis of volume products
Algorithm renders sample cutting,
delivery, analysis, splitting, and
dehydration completely automated
Measuring cycle of product is 15
minutes or greater
System adaptable to specific conditions
of X-ray spectrometer.
Sample delivery. Sample preparation.
Sampling - Rapide
15. Advantage
All devices are equipped with electronic
control
Siemens Logo blocks and contains all
the required safety and switching
components
Custom designed for your needs and
system requirements
Control box.
Sampling - Rapide
16. System for preparing samples to
analyser Courier
Sampling system “Rapide”,
Norilsky Nikel, RU
Sampling
17. A multiplexer for supplying liquid pulp
samples to the analyzer Outotec Courier
Jet pumps for liquid samples to the
analyzer Outotec Courier
Sampling - Rapide
18. Advantage of “Rapide” System
Small volume of sample
Express analysis of volume products
Algorithm renders sample cutting,
delivery, analysis, splitting, and
dehydration completely automated
Measuring cycle of product is 15
minutes or greater
System adaptable to specific conditions
of X-ray spectrometer.
Sample delivery. Sample preparation.
Sampling - Rapide
19. Slides in this Section
Pneumatic Transport Sample System
Automation of the system.
20. Description of “Rapide”
Photo of 15 lines sample cutting
Variable sample from cutting flow
Sample accumulation
Sample received at delivery block
Split with pneumatic drive
Sample dehydration
Pumping device
Pneumatic control boxes
Proprietary software runs system
Sampling - Rapide
“Rapide” system can be adapted to
Saturn, Pluton, Courier systems.
21. Photographs of “Rapide” System
installed at Kaztsink, Kazakhstan
Control box uses GE and FANUC
Photographs of “Rapide” System
installed at Norilskiy, Russia
Sampling - Rapide
Complete system can be designed by SALAS
22. Advantage of “Propul” System
Send samples, documents, other
material objects through system
Everything moved by capsule
Fast delivery times
Accurate analysis at appropriate labs
Documents delivered from department
to department, building to building, all
in same day.
“Propul” is most effective way to
send samples for analysis
Sampling - Propul
23. Description of “Propul” System
Speeds of 8 to 10 mps
Steel or polyethylene pipes 95mm
Maximum weight of object 2.5kg
Blower powered with any level req’d
Strong joints, system connects and
disconnects quickly
Service life of not less than 10 years
“Propul” installation at Norilskiy
Sampling - Propul
24. Advantage of “Reactifs” System
( Flotation Reagents and Lime Batch )
Proprietary software controlled
Feed calculation and flow rate
performed in real time
Reagents non-crystalized in air
Purification process
Direct flow valves or pumps
System adaptable to Burkert, Milton
Roy, Etatron and others
Sensors control expenditure of
reagents and residual concentrations
Automated reagent batch control
systems increase production.
Sampling - Reactifs
26. Advantage of
“Granule Density Meter(DM)” System
Small volume of sample
Reliable automated process
Best for Cu / Au granular readings
Measures percentage of solid particles
and required size and density grade in
decomposing products such as Pulps
and Hydraulic mixtures.
Direct methods of measuring
Numbered parts to right: 1) camera 2) settling
tube 3) measuring device 4) pressure meter 5)
gate 6) thermometer 7) signal lamp 8) level
meter 9) pulp tube 10) calibrating vessel
Schematics of “Granule Density
Meter(DM)”
Sampling – Granule(DM)
27. Unique product developed from 1982
The technology of determined
granulometric particle size by methods
of sedimentation is known more then
100 years
Innovations were made fully automated
and the process was completely
successful from 1982
Advantages: particle size and density
measured together at the same time
Control for process on PC station
Sampling – Granule(DM)
28. Description of “Granule” System
Stability and accuracy of readings
Automation of sample cutting
Temperature compensation
Reading of hydraulic mixture viscosity
Differential measurements including
inaccuracies associated with pressure
monitor settings
Graphs and Photos of “Granule”
Sampling - Granule
29. Description
Density (SGU).
Volumetric Flow Rate (m3/h)
Mass Flow Rate - wet or dry - (t/h)
Totalised dry mass (t)
Totalised wet flow (m3)
APPLICATIONS
Tailing to tailings dumps
Thickener underflow
Mass balance determination in wet
processes
Mass Flow Density Gauge
Automation
30. Advantage of “Analitique” System
Small volume of sample
15 lines of sample delivery
X-ray fluorescent analysis
Software sends data to ore plant
2 vacuum chanels reduces hardware
inaccuracies
Time of analysis is 20-100 seconds
Schematics of “Analitique”
Sampling - Analitique
31. Automation - OTHER
Level Measurement
Gamma - Continuous Level
Gamma - Cyclone Blockage Detection
Gamma - Point Level Switches
Microwave Level Gauges
Tilt Switches
Ultrasonic Level Gauges
Calibration & Auxiliary Equipment
Density Analysers / Calibrators
I-Tag Electronic Isotope Tag
Model 13 Actuator Positioner
PID Controllers
Process Variable Indicator
Radiation Measurement
Speed Sensors & Switches
Density Measurement
Density Analysers / Calibrators
Density Control Systems
Mass Flow Density Gauges
Model NDG-420/421
Blocked Chute Detector
Gamma Level Switch
Microwave Switch
In-Motion Truck Scales
Static Weighing
Bench Scales
Bin / Silo / Hopper Weighing
Blending & Batching Systems
Load Cells
Platform Scales
32. Slides in this Section
Sample Preparation – Crushers,
Dividers, Mills
Metallurgical Testing Equipment –
Abrasion Testing, Bond Index
Machine, Flotation, Filter Pressure
33. Specifications
Digital temperature control
Damper control
Temperature -130C
1 of 2.2kW element
6 removable galvanized shelves 700x700m
Between distance 173mm
Can use on shelve 4pc small tray or 4 big
560L Dry Oven
Laboratory Equipment
34. Specifications
Max 130 Degrees C.
Stainless steel internal lining.
High temperature resistant insulation.
2 x mobile trolleys with high temperature
resistant castors.
0.37kW recirculating fan – 380-415V 50Hz.
3 x 4kW elements.
Digital temperature control.
Twin front operated damper control.
Over temp protection.( Max setting on over
temp 220deg.
Drying Ovens, M2
Laboratory Equipment
35. Specifications
• Maximum Feed Size - 170 mm (85% of jaw
inlet)
• Usual Product Size - 25 mm
• Maximum Product Size - 50 mm
• Throughput at Usual Product Size -
3000kg/h
• Dust Extraction Points - Two
• Mass - 2000kg
• Motor Power - 7.5 kW, 3 phase
Jaw Crusher JC 3030S
Laboratory Equipment
36. Specifications
Jaw Inlet - 200 mm x 130 mm
Maximum Feed Size - 110 mm (85% of jaw
inlet)
Usual Product Size - 6 mm
Maximum Product Size - 35 mm
Throughput at Usual Product Size - 500kg/h
Dust Extraction Points - Two
Dust Extraction Flow - 200 L/s
Mass - 650kg
Dimensions (lx w x h) - 840 x 570 x1400 mm
Motor Power - 4 kW, 3 phase
JC2013 Jaw crusher
Laboratory Equipment
37. Specifications
Jaw Inlet - 100 mm x 200 mm
Maximum Feed Size - 70 mm (85% of jaw
inlet)
Usual Product Size - 3 mm
Maximum Product Size - 25 mm
Throughput at Usual Product Size - 500kg/h
Dust Extraction Points - 1
Mass - 270kg
Dimensions (lx w x h) - 720 x 475 x630/945
(with frame) mm
Motor Power - 2,2 kW, 3 phase
JC1000
Jaw crusher
Laboratory Equipment
20 L receiving tray
38. Specifications
Jaw Inlet - 100 mm x 200 mm with Rotary
divider in one unit
Sample is crushed in the crusher, and then
after the hopper it falls into the sample
receptacle divider.
Since the rotation speed is constant for
sample receiver, samples are distributed on
the tray in proportion to their volume.
Jaw CrusherDivider
JC1000RSD
Laboratory Equipment
39. Specifications
Jaw Inlet - 60 mm x 100 mm with divider in
one unit
Three parts: Frame, Receptacle Trays,
Divider.
Geared motor transmits rotation to divider
in which there are five removable trays.
Three trays have the same volume - 1/4 of
the original sample. Two trays have the
same volume - 1/8 of the initial sample; one
of them is set cutter which divides it into
two parts, providing a reduction in samples
from 1/8 to 1/80 by moving the partition.
JC50 Jaw crusher/ Divider
Laboratory Equipment
40. Specifications
• Jaw Inlet - 60 mm x 100 mm
• Maximum Feed Size - 50 mm (85% of jaw
inlet)
• Usual Product Size - 2 mm
• Maximum Product Size - 20 mm
• Throughput at Usual Product Size - 200kg/h
• Dust Extraction Points - 1
• Mass - 130kg
• Dimensions (lx w x h) - 640 x 340 x600 mm
• Motor Power - 1,1 kW, 3 phase ,
JC50
Jaw crusher
Laboratory Equipment
2 L receiving tray
41. Specifications
• Disc diameter -65 mm
• Maximum Feed Size -1 mm
• Usual Product Size - 0,05 mm
• Material disc- SiC
• Volume chamber -70cm3
• Mass - 19kg
• Dimensions (lx w x h) - 350 x 230 x260 mm
• Motor Power - 0.25 kW, 3 phase ,
Disc mill DM-65
Laboratory Equipment
42. Specifications
• Disc diameter -175 mm
• Maximum Feed Size -3 mm
• Distance between disc 0.1 -5.0 mm
• Usual Product Size - 0,1 mm
• Productivity -150 kg/hr
• Material disc- castle/ stainless still
• Mass - 140kg
• Dimensions (lx w x h) - 690 x 410 x905 mm
• Motor Power - 2.2 kW, 3 phase ,
Disc mill DM-175
Laboratory Equipment
43. Specifications
• Disc diameter -200 mm
• Maximum Feed Size -5 mm
• Distance between disc 0.1 -5.0 mm
• Usual Product Size - 0,1 mm
• Productivity -150 kg/hr
• Material disc- castle/ stainless still
• Mass - 140kg
• Dimensions (lx w x h) - 690 x 410 x905 mm
• Motor Power - 2.2 kW, 3 phase
Disc Mill
DM-200
Laboratory Equipment
44. Specifications
• Disc diameter -250 mm
• Maximum Feed Size -5 mm
• Distance between disc 0.1 -5.0 mm
• Usual Product Size - 0,1 mm
• Productivity - 300 kg/hr
• Material disc- castle/ stainless still
• Mass - 200kg
• Dimensions (lx w x h) - 930 x 410 x905 mm
• Motor Power - 4.0 kW, 3 phase
Disc Mill
DM-200
Laboratory Equipment
45. Specifications
Rolls size 150x200 (LxD)
Optimum Reduction Ratio 4:1
Usual Product Size 1mm
Throughput at Usual Product Size
Dependant on gap setting
motor 2 x 1.1 kW
Easy to adjust
Fully enclosed dust cabin
Rolls
Crusher
Laboratory Equipment
46. Specifications
Diameter of crushing con x 100 mm
Maximum Feed Size - 10 mm
Usual Product Size - variable
Throughput at Usual Product Size - 30kg/h
Mass - 62kg
Dimensions (lx w x h) - 520 x 250 x420 mm
Motor Power - 1,5kW, 3 phase
Cone Crusher
SALAS10
Laboratory Equipment
47. Principal of work - Advantages
When rotational unbalance occurs from
centrifugal force, the crushing cone and
inner shell will still work.
Material that falls on the guide in the
housing chamber will be vibrated and
gravity discharged through the nozzle.
Selective crushing without overgrinding;
3 speed selection of the oscillation in
crushing cone
installation of long or short fingers
Ability to work "under the rubble," without
dosage crushed material;
Cone Crusher
SALAS10
Laboratory Equipment
48. Specifications
Volume of drum x 50 L
RPM - 49
The angle of inclination of the longitudinal
axis of the barrel to the axis of its rotation,
deg., "Without dosage crushed material;
Mass -135kg
Dimensions (lx w x h) - 1130 x 770 x1040 mm
Motor Power - 0,75kW, 3 phase ,
Material of drum- stainless steel
Mixer 50L
Laboratory Equipment
49. Specifications
Available for sample from 10kg up to 60 kg
in different model design.
Dividing sample automatically using
regulated vibro feeder system
Size of reduction can be any according
requirements
Easy to operate
Representative result
Rotary sample divider
Laboratory Equipment
50. Specifications
Width of grooves 10 mm
Full sample receptacle volume 2x1,3 dm3
Number of grooves piece 16
Particle size of sample not more than 3
mm
Overall dimensions,
L x W x H 260x215x200 mm
Weight 3 kg
Riffle Splitter
Divider D10
Laboratory Equipment
51. Specifications
Width of grooves 15 mm
Full sample receptacle volume 2x4,4 dm3
Number of grooves piece 16
The particle size of the sample not more
than 5 mm
Overall dimensions,
L x W x H 395x295x315 mm
Weight 7.3kg
Riffle Splitter
Divider D15
Laboratory Equipment
52. Specifications
Width of grooves 20 mm
Full sample receptacle volume 2x10 dm3
Number of grooves piece 16
The particle size of the sample not more
than 6.5 mm
Overall dimensions,
L x W x H 420x375x370mm
Weight 10.8kg
Riffle Splitter
Divider D20
Laboratory Equipment
53. Specifications
Touch Screen for more accurate control
Cabinet front is fully removable for easy
access and maintenance
Internal control box for maximum safety
2.2kW motor for extra power
Power drive is separate to motor to reduce
wear
Easy to adjust belt tension
Maximum sample weight of 1600gms
Pneumatic clamping system to ensure that a
full range of grinding bowls can be fitted
quickly
Pulverizer
PV2
Laboratory Equipment
54. Specifications
Bowl jack for making lifting easier
Swing arm with incorporated pneumatic
clamp
Touch screen for more accurate control
Internal control box for maximum safety
4kW motor for extra power
Power drive is separate to the motor to
reduce wear
Two piece, acoustic insulated steel cabinet
Easy to adjust belt tension
particular size of 90% passing 75 micron in a
standard cycle.
Pulverizer
PV5
Laboratory Equipment
55. Specifications
Fully painted mild steel body.
Built in funnel & screen
Mild steel barrel as standard. Stainless steel
available on request.
Acoustic enclosure fitted as standard.
Replaceable lifterbars.
Ball &
Rod Mill
Laboratory Equipment
56. Specifications
Available different size:
200x200 ball mill
200x250 rod mill
250x250 ball mill
250x250 rod mill
300x300 ball mill
300x360 rod mill
Laboratory Equipment
57. Specifications
Bond index ball mill, supplied
complete with controls, stand,
funnel and screen, ball charge
Crate dimensions
1550 x 950 x 1500mm
mass 360kg
Bond Index Mill BWI (Ball or Rod)
Laboratory Equipment
58. Specifications
Available: 5L; 10L; 13L; 21L; 40L
Construction of Filter pressure has
cylindrical body with a filter cloth installed
at bottom.
The slurry is poured into the top of unit.
The lid is screwed down securely and
manually pressurised using the installed
control valve.
The pressurised air then forces the excess
to be concentrated into a cake to be
removed at the bottom of the body
Filter Pressure
Laboratory Equipment
59. Specifications
• Impeller speed is variable
• Air supply is fed through impellor
shaft, this requires the machine to
be connected to an air supply
(compressor)
• Rotor diameters vary with the size
of the cell being used.
• Available different volume of cells:
• 0.5; 0.75; 1.0; 1.5; 2.0; 3.0;5.0L or
others
Flotation Machine
Laboratory Equipment
60. Slides in this Section
Fusion Furnaces – Gas & Electrical
Cupellation Furnaces
Multi Pour Systems
Crucibles and Cupels
61. Description
Power Requirements:
Volts: 240v Phase: 1 Kilowatts: 1
Fuel Type: Natural Gas.
Gas Consumption: 540Mj Per Hr
Operating Pressure: 3.5Kpa
Gas Pressure Requirements:
Min Inlet: 3.5Kpa Max Inlet: 7Kpa
Measurements - Overall Height
1980mm, Working Height 935mm,
Overall Width 2070mm, Overall Depth
1200mm
Temperature 1100 C
50 Place Fusion Furnace Natural Gas
FAS-120-NG
Laboratory - Furnaces
62. Description
Volts: 110v Phase: 1 Kilowatts: 1
Fuel Type: Natural Gas Or LPG
Gas Consumption: 540Mj Per Hr
Operating Pressure: 3.5Kpa,
( 140 for LPG )
Gas Pressure Requirements:
Min Inlet: 3.5Kpa
Max Inlet: 7Kpa
50 Place Fusion Furnace
Laboratory - Furnaces
Furnaces available in different fuel
types and voltages:
Natural gas
Nat Gas/LPG
LPG
Oil / Diesel
63. Description
100-400 Samples per day
Electrical 3 phase
Transformer 24va Multi-tap 50-60Hz.
Crucibles: 25 x 50gram, 25 x
65gram,42 x 30gram, 42 x 40gram,
42 x 55 gram
Working Area
D*W*H = 560* 590* 195 mm
Dimension Size
L*W*H = 1640* 1890* 2030mm
Weight 1200KG
Temperature 1,150 C
Electric 25 Place, Fusion Furnace,
FAS-155-E
Laboratory Furnaces
64. Specifications
100 to 400 samples per day
Electrical Connection 3 phase
Transformer 10.5va Multi-tap 50-
60Hz. Crucibles: 25 x 50gram, 25 x
65gram,42 x 30gram, 42 x 40gram,
42 x 55 gram
Crucibles: 50x 6A, 50x 7A or 7AS
Working Area
D*W*H = 560* 590* 195 mm
Dimension Size
L*W*H = 1290* 1090* 1930mm
Weight 480KG
Temperature 1,110 C
Electric 50 Place, Cupellation Furnace
FAS-140-C
Laboratory Furnaces
65. Specifications
• Power Requirements:
• Volts: 240v Phase: 1 Kilowatts: 1
• Fuel Type: Natural Gas.
• Gas Consumption: 270Mj Per Hr
• Operating Pressure: 3.5Kpa
• Gas Pressure Requirements:
• Min Inlet: 3.5Kpa Max Inlet: 7Kpa
Dimension Size
L*W*H = 860* 990* 1700mm
Temperature 1,110 C
100 Place Cupellation Furnace,
Natural Gas - 240v, FAS-170-NG
Laboratory Furnaces
** 168 Place Fusion Furnace ( larger model available )
66. Specifications
Variety of multiple crucible loading
and pouring systems suit most fire
assay crucibles
Natural and LP gas, electric and
distillate-fired fusion furnaces and
cupellation furnaces
Cupel forks to suit various
configurations
Tongs, cupel trays and other manual
fire assay tools
Aluminium and Stainless Steel test
tube racks
Typical Fire Assay Multipour System
Laboratory Furnaces
67. Slides in this Section
Installation and Maintenance
Warranty
Spare Parts
Mining Technologies
Technical Audits
Seminars and Consulting
Engineering and Design
68. Images of Spare Parts Pouring Mould 7 place 55g
Laboratory
Spare Parts
69. Bowls and Discs for Pulverisers
Laboratory
Spare Parts
Bowls Available for sample weights 50g to 3.5Kg
Suitable for following mills:
LM1, LM2, LM5 ( Essa, FLS ) and model PV2, PV5
B300, B400, B800, B1000, B2000, B5000
70. We provide Spare Parts for all
Laboratory
Spare Parts
Mills
Crushers
Furnaces
Sampling Automation Systems
Please contact us for detailed lists
Reagents
PAX, MIBC
Flocculants
Grinding Rods
Grinding Balls
Conveyors
Conveyor Belts
Idlers
Filtration
Industrial Cones
Industrial Screens
Grizzlies
Plastic Mesh
Wire Mesh
Additional Products,
More Information available on request