Transfer Chutes Design with Rocky DEM

This article focuses on how engineering simulations help better design transfer chutes for their smoother functioning and enhanced equipment life.

Transfer chutes are used widely for handling bulk materials. They can be used to change the direction of material flow and transfer material from one conveyor to another conveyor. A chute might seem to be a petty component in a huge plant, but it plays a significant role. If you don’t design the chute properly, you’ll witness a high maintenance cost, increased downtime and particle breakage. On the other hand, a well-built transfer chute can help reduce noise, decrease damage to conveyor belts and transfer chute walls, and reduce dust formation.

Prior to getting to design, I will list down the essential requirements for a good transfer chute design:

  1. Avoid material clogging
  2. Minimal equipment wear
  3. Minimal material degradation
DEM-Based Approach for Designing Transfer Chutes

Getting the optimum chute design is a time-consuming task because transfer chutes are not designed properly most of the times. For the above-mentioned design considerations, there are many constraints that you will need to apply while designing transfer chutes.

Discrete Element Method (DEM) can help designers such as you design better transfer chutes in lesser time. DEM can help you visualize the flow of particles (material) in transfer chute and provide useful data pertaining to each particle and all the boundaries in the chute. Needless to say, it is impossible to derive such level of detail from physical trials or finite element analysis. Besides providing much needed qualitative insights, DEM simulations enable you with the freedom to explore new designs and test them without the need for physical trials.

In the following sections, I’ll explain how Rocky DEM software will help you design high quality transfer chutes.

Avoid Material Clogging

Blockages in transfer chutes restrict the flow of material through the chute. Not only are blockages a detriment to the transport efficiency, but also they exert a lot of stress on the chute walls leading to serious damage. To make transfer chutes less prone to material blockages, impact angle should be decided based on material properties and inlet speed should also be tweaked accordingly.

Rocky DEM has all the capabilities necessary to address the needs for wet and dry material handling. Different material properties such as the rolling friction, static friction for particle interactions, elastic modulus, bulk density, adhesion coefficients can be accounted for. A unique capability of Rocky DEM is the availability of adhesion models that can replicate the flow of wet materials. This would foster the simulation of materials such as wet mortar in the construction industry or some crucial unit operations with wetting ingredients in the process industry.

Rocky DEM helps to model blockage and design better transfer chutes
Rocky DEM simulation showing blockage (blue colored particles are stationary)
Minimize Equipment Wear 

Wear leads to increased maintenance cost not only for transfer chutes, but also for the conveyor belt. Abrupt changes in material flow direction is one major reason for surface wear. The smoother the flow, the lesser will be the damage to transfer chutes. The angle at which the material hits the walls of the chute largely affects the wear. This angle will depend on the material velocity and properties of the material. Modification can be done to the chute design to minimize wear, such as by adding a curved guide surface at the mouth of the chute to direct the flow and make it smoother.

As you will understand, making these changes in physical trials and capturing test data is cumbersome. With Rocky DEM, this task is just a few clicks away. You can use any CAD tool to make geometry changes and then bring it into Rocky DEM to simulate performance of modified designs. Rocky DEM will provide you wall impact force; using this, you can decide the optimum velocity and finalize the most suitable design for the transfer chute.

Rocky DEM simulations showing Instantaneous Shear Power for transfer chutes
Instantaneous Shear Power for a transfer chute
Rocky DEM simulations showing Mean Shear Power for transfer chutes
Mean Shear Power for a transfer chute.
Minimize Material Degradation

The quality of the end product decides its price. Undesired material breakage and extravagant segregation or degradation can lead to a poor quality process outcomes. Particle degradation occurs due to impact on chute and shear either from collisions with walls or with other particles. Information about the forces that a particle experiences can give an indication of how much damage will occur.

Rocky DEM not only provides forces on each particle, but also simulates breakage of particle under higher forces using models which are backed by years of research. You can visualize the particle actually breaking into fragments as it proceeds through the chute.

Rocky DEM: Helping You Engineer Better Transfer Chutes

Designing Transfer Chutes is a complex process and testing multiple designs is an expensive affair. However, Rocky DEM makes it simpler, cost-effective, lesser equipment maintenance and upkeep, and helps you to produce a better quality product. It has the ability to

  • analyze large number of particles quickly due to its multi-GPU capabilities,
  • represent particle shapes used in your industry, and
  • multiple post-processing options to help you analyze the data efficiently.

Quite clearly, Rocky DEM will help you and your organization minimize prototype costs and product development times. You’ll recognize that these benefits will further accelerate product launches into the market and fetch your organization higher profitability margins.

Still curious to know all of this actually works? I’m going to speak in a webinar called Assessing and Improving the Bulk Material Handling Practices with Rocky DEM Simulations on February 15th at 2:30 PM IST. Come, join me in an hour of learning how Rocky DEM simulations can help you save and generate more revenue for your bulk handling business.

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Weekly Simulation Round-Up | Issue 4

Banner for Weekly Simulation RoundupWelcome to this edition of Weekly Simulation Round-Up. As usual, we bring you the most interesting articles from this week.

Computational Fluid Dynamics for Patient-Specific Surgeries

In this article, a researcher of Cardiothoracic Surgery from the Shanghai Children’s Medical Center talks about simulation-driven medical surgeries. He states that “the long-term prognosis for babies born with single ventricle heart defects can depend on the location of vascular connections made during corrective surgery”. Based on the babies’ cardiovascular anatomy, the medical center researchers employ ANSYS CFD to determine the optimal personalized surgery for improving surgical effectiveness and to obtain a better quality of life for children (read more).

Simulation of “Material Other Than Grain” Separation Process

For farmers engaged in grain production, separation of stones, straw and dust from grains is a regular activity. Can simulation techniques help such farmers to reduce cost and time-to-market, and increase grain production ramp-up? The answer is yes!

Using Rocky DEM, a state-of-the-art discrete element particle simulator, along with computational fluid dynamics performed using ANSYS Workbench, the material other than grain (MOG) separation process can be simulated. There’s potential for the MOG equipment makers to redesign or improve for higher separation efficiency.

Optimus Prime, anyone? 

Antimon is a BMW 3-series car that transforms into a robot in under 30 secs. It converts from a BMW into a grand robot completed with powerful arm movements and a Transformers-like face. It took the company eight months to complete Antimon using an actual car (Watch on YouTube).

Diamonds Convert Nuclear Waste into Clean Energy

British Scientists have developed a method of turning nuclear waste into batteries using diamond. By encapsulating a short-range radioactive material in an artificial diamond, small electrical charge can be generated even after insulating harmful radiation. Researchers estimate that a carbon-based battery would generate 50% of its power in 5,730 years (read more).

Structural Design Optimization of Electrical Transformer Tanks

One of our customers, Crompton Greaves Ltd., presented their experiences with optimizing structural design of their electrical transformer tanks. To achieve this, their engineers used the state-of-the-art tool for optimization and variation analysis – optiSLang and ANSYS Mechanical. Through this exercise, they were able to obtain ~10% weight reduction and over 17% reduction in Equivalent Stress (read more).

So, folks, that was all for this week. We will be back again with a new edition next week. Do feel free to share your feedback or questions with us.

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Weekly Simulation Round-Up | Issue 2

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I wish you a Happy New Year! Hope you had a great start to 2017. In this edition of the Weekly Round-Up, I’m sharing my favorite posts on how simulation has helped in thermal drying of automotive body-in-white, reconstruction of historic Berlin City, PCB support design and design & development of smart cities.

Simulation-Driven Development of a Drying Oven (Case Study)

High-quality standards apply to the drying process of car body paints. In this case study, you will understand how “with simulations of the oven behavior in the design phase, an optimized oven design was found which fulfills the required criteria of the drying process.” In the process of applying simulations, the customer said “virtual technology helped to avoid expensive changes after the oven is built, and to gain more insight into the manufacturing process (read more).”

Optimization of PCB Supports During In-Circuit Testing

Current automobile industry is driven by interacting electronic controls for which electrical verification tests needs to be carried out. This presentation by Robert Bosch, one of our oldest customers, at the 6th Optimization and Stochastic Days 2016, explains lots of interesting things. Their work explains that “engineer uses judgement and experience to place the supports, and does trials in simulations! Can this be eliminated.” The article then goes on to describe how optiSLang was used to optimize the number of PCB supports to aid the engineers (read more).

Role of CFD in Reconstruction of Berlin City Palace

The Berlin City Palace was a royal and imperial palace in the centre of Berlin. It was heavily damaged in World War II and later destroyed during conflict. Today this important historic site is being rebuilt and ANSYS CFD simulation has played and important role in helping “engineers optimize the many, and often conflicting, requirements of the climate-control system. Engineers are confident that the palace will meet all requirements, including energy conservation, comfort, artistic preservation and costs (read more).”

University of Cape Town uses Rocky DEM to Simulate Particle Behavior

University of Cape Town is gaining multiple advantages using Rocky DEM. In this interview, Dr. Indresan Govender says how “Rocky DEM will be instrumental in extending theories to include realistic shapes.” In addition, he adds by saying that “Rocky is the only DEM package that handles proper shapes. Other packages artificially achieve this by clumping spheres together. Rocky’s main advantages are realistic particle shapes and extension to GPU computing. (read more).

Building Digital City Twins

The combination of semantic 3D city model with numeric simulation offers a great potential for risk reduction. With the 3D City Model, you achieve illustrative scenarios for many applications, such as the analysis of dangerous situations and the planning of necessary preventive measures. Also complex consequences like climate change in the city are getting clearer and more visible (read more).

Thank you! Hope you have found this week’s posts interesting.

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Weekly Simulation Round-Up | Issue 1

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Welcome to the Weekly Round-Up! In this, we’re sharing posts that start from the importance of the Big Data, Healthcare to the breaking medical pills. We hope you’ll enjoy this post.

Maintaining Power and Signal Integrity

The article from ANSYS Advantage Magazine says that “the ever-changing hardware that supports big data and the Internet of Things must be fast, reliable and quickly developed. Simulation is important to ensure first-pass success by keeping pace with Big Data & Internet of Things, PCB/Chip Speed & Reliability are paramount (read more).”

CFD Modeling for Cardboard Packaging Ventilation

CFD simulation is used to model cardboard boxes to regulate temperature during pre-cooling, transport and storage. According to this article, “packaging ventilation must therefore be designed keeping in mind various parameters such as: type of packaging, type of holes, external and internal packaging structure, type of product, product shape and size, etc (read more).”

Patient-Specific Hip Implantation Methods

ANSYS software simulates the stress and strain on bones of individual patients to study a new hip implantation method. In an ANSYS Advantage magazine article, they say that “increasing numbers of patients are suffering from pain, stiffness or difficulty in moving due to osteoarthritis in their hips.”

The article goes on to add saying that “doctors typically recommend hip replacement surgery for patients with pain so severe that it limits everyday activities or reduces their range of motion. In hip replacement surgery, a damaged hip joint is surgically replaced with an artificial implant. The surgeon removes the head of the femur with a saw and then attaches a ball that is anchored by a shaft extending into the femur. A mating cup is attached to the pelvis (read more).”

Great Molasses Flood of 1919

Live Science brings an article from the archives. Apparently “a bubbling flood of molasses sent a towering wave of goo down the streets of Boston in 1919. It caught everything from horses to humans in its sticky grasp, killing 21 people, injuring 150 more and flattening buildings in its wake. Now, scientists have figured out why the deluge of viscous sweetener was so deadly (read more).”

Studying Breakage of Medical Pills

Simulation of material fragmentation is easier than ever now! Rocky DEM can simulate the division of a pharmaceutical pill (or any other particle) and then analyze of the behavior of the material. Such complex breaking phenomenon is possible with Discrete Element Modeling using Rocky DEM (read more).

That’s it for this Weekly Roundup! See you next week.

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