JEM DESIGNS
Cutting-Edge Testing Equipment
JEM DESIGNS offers state-of-the-art machine designs for manufacturers and buyers of laboratory and related testing devices. Our superior test systems have been awarded US patents and are now ready for immediate introduction to vast and awaiting markets.
Multiphase Flow Simulation Test Apparatus
This apparatus is a revolutionary advancement in the design and function of multiphase fluid flow simulation test equipment. The invention is a method for testing a number of fluid samples at elevated constant temperatures and/or pressures while providing a direct correlation or simulation of real time multiphase fluid flow profiles. These include:
- Tangential
- Impingement
- Eddy Effects
About the Invention
The flow impact test apparatus features a controlled temperature or pressure enclosure that contains multiple synchronized flow simulator devices for one or more metals to be tested. In addition, the flow movement of the multiphase fluids can easily be adjusted by variable flow control mechanism. This invention is a valuable advancement within this field that assures to provide consistent quality results while saving time and money.
Limitations of Available Devices on the Market
Present devices for testing a number of fluid samples leave much to be desired. They do not have nor allow means to precise or direct multiphase pipeline simulations of hydraulic wall shear stress and/or flow impact contact forces on the pipe wall. Moreover, they:
- Are quite expensive (with impractical or high maintenance setup mandates)
- Have limitations on obtainable wall shear stress levels
- Lack real technical precision and/or data accuracy or reproducibility
The problems above pointed out a real need that led to designing new top-quality devices for testing different materials at various constant temperatures and pressures under simulated or multiphase system conditions. In addition, this invention will allow testing distinct metals easily and quickly with unequaled accuracy.
Key System Design Features
- Incorporates novel flow simulator devices that can be made in sizes and styles to fit any need or special application
- Can be incorporated into existing complete reactor systems at minimal costs
- Has a complex yet practical design
- Allows plain interpretation of required multiphase fluid flow dynamics
- Will be easily mass-produced at a very affordable price because of its compact design application
Why It Works
- The novel design force distribution graph (i.e. normal curve) describes the constant multiphase fluid flow on the test material specimen
- Exhibits a controlled or linear increase in contact pressure on distinct test material surfaces with increased core impact velocities
- Constant momentum transfer or liquid force is maintained in the same direction as the entrained multiphase fluid flow along the contact metal planar region
Key System Comparisons (In Industry)
Sale Potential
Our apparatus is a unique testing innovation that can be designed in varied configurations or sizes to meet any special research requirements. It also reflects new methodology that fills a real need for various laboratory evaluations.
Commentary
The inventor used keen and careful planning in the basic design of this invention. Because of this, the design is practical. Moreover, the inventor considered the manufacturing technique. This product offers some unique possibilities and deserves serious consideration from buyers in this industry.
Financial Arrangements
The inventor or licensor has indicated a willingness to negotiate the financial arrangements.
To learn more about multiphase fluid simulation test rigs, read this published article by Joseph E. Morris, Jr., our founder and chief executive officer (CEO).”
Synchronized Magnetic Stirring and Heating Test Apparatus
A new advancement in the design and function of magnetic stirring and heating test equipment, this invention is a means for testing a number of fluid samples at elevated temperatures and/or pressures while providing a stirring action for simulated proper fluid flow. It provides quality results while saving time and money.
About the Invention
This laboratory equipment features a temperature-controlled enclosure with multiple synchronized magnetic stirring devices for one or more independent pressurized sample cells that contain the fluid to be tested. In addition, the distinct flow and/or movement of the fluid can be adjusted by controlling the rotational speed of the stirring means.
Limitations of Available Devices on the Market
Present devices for testing a number of fluid samples leave much to be desired. They do not have or allow means to independently replace test vessels or control the distinct flow dynamics, temperature, and/or pressures provided to multi-samples (without disrupting preexisting cell operations).
Additionally, they are quite expensive and limited to fixed volumes and/or the quantity of the samples during a single test stage. This problem pointed out a real need that led to the invention of a high-quality device for testing a number of fluids at various temperatures and pressures. With its synchronized stirring and heating, this invention will allow quick, easy, and accurate multiple fluid sample testing.
Key System Design Features
- Can be made in sizes and styles to meet any special need or research application in full compliance with all governing industry specifications
- Can be easily mass-produced at a very affordable price
- Affords practical and essentially maintenance-free complete setup
- Generates highly stable, reproducible, precise, and sound data with direct correlation to real-time field measurements
- Features a programmable temperature-controlled or fireproof enclosure that contain multiple synchronized stir mechanisms for many fluid and/or materials to be tested
- Can facilitate electrochemical and gravimetric-based studies (i.e., sweet,
- sour or sweet, or sour gas applications) of multiple distinct samples per test run
- Ideal system design for static, laminar, and stratified (with some level of turbulence contingent on stir mechanism type) test applications of fluids or materials under well-defined hydrodynamic conditions
- System contains no combustible materials and sturdy with a design K-factor of more than 10
Sale Potential
Our apparatus is a unique testing innovation. It is also a method that fills a real need for various laboratory evaluations.
Commentary
The inventor used careful planning in the basic and simple design of this invention. Because of this, the design is practical and consideration has been given to manufacturing technique. It is a product that offers some unique possibilities and deserves serious consideration from buyers in this industry.
Financial Arrangements
The inventor indicated his willingness to negotiate the financial arrangements.
Client Testimonials
Read the reference letters below to learn what makes our designs outstanding.
- First Reference Letter from Patrick J. Teevens, CP, P. Eng., President of Broadsword Corrosion Engineering, LTD.
- Second Reference Letter from Patrick J. Teevens, CP, P. Eng., President of Broadsword Corrosion Engineering, LTD.
- A Reference Letter from Kuldeep Dave Ohri, Senior Engineering Technologist of Husky Oil Operations LTD.
- A Reference Letter from John Lerbscher, Ph.D. of Baker Petrolite
- A Reference Letter from Olagoke Olabisi, Ph.D.