Tag Archives: Chute Technology

Chute Technology reduces coal mine downtime with self-cleaning solution

Coal technology, Mining equipment, ,

An Australian coal mining operation is benefitting from a new coal chute with self-cleaning flow surfaces to radically reduce downtime from approximately 700 minutes per month to just 10.

Material flow experts, Chute Technology, were called in to an Australian coal mine where a chute had large impact angles at high speeds, causing unnecessary blockages and spillage, and contributing to downtime while these are cleared, the company said.

“These blockages amounted to 1,415 minutes of downtime over a two-month period,” Chute Technology Materials Handling Engineer, Gian Naldi, said.

“This site has highly cohesive coal, due to high clay content. Blockages were forming too easily in areas within the chute with large impact angles,” he said.

Chute Technology estimates that the 1,415 minutes of downtime would equate to approximately 48,000 t of lost production of coal, while blockages were being cleared.

“In an operation that produces more than 11 Mt per annum, reducing this lost production makes a significant difference,” Naldi said.

Chute Technology worked with the coal mining company to design a modular coal chute solution that would fit within the existing structural boundaries, to minimise disruption to operations.

“Our solution involved a continuous flow path, without free fall of material, or areas of significant impact,” Naldi said. “This created a ‘self-cleaning’ flow surface that didn’t block, even with the cohesive coal.”

With the chute installed, Chute Technology measured downtime over the next two months, and recorded approximately 20 minutes, a sizeable reduction from the 1,415 minutes in the prior two months.

“This is an outstanding result and will begin to pay for itself as throughput increases significantly without the blockages and spillage,” Naldi said.

“One of the contributing factors to the success of the chute is that installation was considered during the design phase. We worked closely with the fabricators and installers, where we all contributed to finding an optimum solution.”

For a chute handling highly sticky coal, Chute Technology considered impact angles, flow speeds and momentum throughout the materials handling process.

“Designing these characteristics in the optimum way created a self-sweeping action within the chute, meaning that buildup was minimised,” Naldi said. “We used asymmetric shapes to steer the material through the building’s existing structural elements to load the conveyors effectively, without the need for re-engineering.

“And because of the preparation and collaborative approach to design and installation, the chute was able to be fully assembled ahead of the scheduled time.”

Chute Technology utilises Discrete Element Modelling and Finite Element Analysis as part of the design process cycle to simulate real-world conditions and modify designs to achieve the best and most cost-effective outcomes.

“This customer project is an ideal example of Chute Technology’s problem-solving expertise helping with material flow issues, delivering economic benefits and increasing productivity for the customer,” Naldi said.

Chute Technology improves the flow at Ulan operations

Bulk handling, Coal technology, Mine operation news, Mining equipment, Mining services, , , , , ,

Chute Technology says its new coal and ore handling technologies, designed to overcome production-limiting factors at mines and bulk handling terminals throughout Australia, are proving their worth in service at the Ulan operations in New South Wales.

The technology packages are designed to eliminate potential bottlenecks, occupational health and safety issues and weak links in the production chain that can increase downtime and reduce output, Chute Technology says.

Typical issues include bin surging, bulk cleaning, spillages, blockages and reduced throughput rates, resulting in inefficient production.

According to Dennis Pomfret, Managing Director, Chute Technology, the company designed a customised chute to eliminate potential downtime for a specific section of the bypass system at the Ulan Surface Operations, which IM understands is owned by Glencore.

The new chute has dramatically reduced downtime since commissioning, according to the company, whereas the legacy arrangements were a source of multiple hours of lost production.

“The new chute allows Ulan Surface Operations to operate with a full feed rate of 2,000 t/h without any stoppages or blockages, so they can maximise their productivity and our profitability,” Pomfret said.

Chute Technology says it combines its decades of Australian and international practical engineering experience with advanced expertise in new flow enhancement and problem-solving technologies to produce modern answers to minerals and materials handling problems. The company provides audits and solutions extending from single issues at individual plants through to whole-of-process improvements extending from mines to port or point of resource use.

Pomfret said Ulan Surface Operations was looking to the future by investing in a solution designed to maximise productivity and eliminate unwanted downtime.

“We’re delighted that we could make Ulan Surface Operations’ bypass vision come to life, and it’s rewarding to see it working out in service,” he said. “Ulan Surface Operations is always looking to employ modern solutions that avoid problems in the first place, rather than cleaning up a mess after it occurs.”

Chute Technology performed an audit of current operations to gain a holistic view of current operations, before recommending the solution. The engineering audit determined that functionality of one known trouble spot, the bypass hopper and vibratory feeder, could be taken out of service and replaced with a simpler transfer chute with an in-built surge capacity.

The chute was designed in such a way that it could all be lifted and installed in one go, minimising installation downtime, the company said.

Chute Technology also designed and installed an adjustable surge control baffle device to control the height of material on the conveyor belt. The device acts like a trimmer on the end of the chute, where it trims the height of material during times of surge loading, to avoid belt overloading, side spillage and keep material heights consistent.

“We anticipate the surge control device will reduce spillage considerably, especially when taking into account the typical delays in conveyor stopping and starting sequences,” Pomfret said.

“A major consideration for the project was to design the new chute around the existing structures as much as possible, so that there was as little rework or modifications needed before installation.

“We also took into consideration that the drop height is almost 15 m. Ulan Surface Operations wished to retain their surge bin, floor structure, vibrating feeder and conveyor structures, so we designed around these as much as was possible. Additionally, the design was modular, so the installation took as little time as possible.”

Chute Technology says it selected an asymmetric chute to avoid belt mis-tracking issues, a “virtual skirtboard” to optimise the internal flow geometry and designed a single point of contact flow path so the material flow is constantly in contact with the chute from the head pulley to the receiving belt.

Pomfret concluded: “This project has been an excellent success, and we look forward to a long-term relationship with Ulan Surface Operations, as they look to maximise productivity and profitability.”