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“Trade In, Trade Up” Your Old Forklift

“Trade In, Trade Up” Your Old Forklift

Customers can take advantage of this substantial trade-in offer to replace existing used forklifts with new dependable, high quality Crown equipment at a considerable savings.

AUCKLAND, New Zealand, September 28, 2021 — Crown Equipment, one of the world’s largest material handling companies, has launched its latest programme initiative, “Trade In – Trade Up” for New Zealand customers. The programme provides businesses with an option to trade in their used and worn forklifts for the greater quality, better performance and higher efficiency of Crown lift trucks.

By trading in their old forklifts to trade up to a new Crown, customers can expect to improve work task performance, health and safety of the operators and overall productivity. Crown’s new forklift trade-up programme provides superb performance and modern reliability, reduced maintenance costs and significant operational benefits. Additionally, existing Crown customers also benefit from this programme if they have an old Crown forklift at end of life that needs to be upgraded.

Following the recent massive shifts towards fuel-intensive to material-intensive energy sources, Crown’s initiative of recycling used and old forklifts is certainly the right step ahead. 

Read More: Global Transition Towards Electric Vehicles Poses Major Challenges.

Each trade-up includes:

  • A free needs analysis of a customer’s operation
  • A complete solution utilising the latest MHE technology
  • Improved forklift performance and modern reliability
  • Significant operational and business cost benefits
  • Reduced maintenance downtime
  • Local service and support with a nationwide reach
  • Genuine manufacturer parts

Customers can take advantage of this substantial trade-in offer to replace existing used forklifts with new dependable, high quality Crown equipment at a considerable savings. New Crown forklifts, supported with a comprehensive manufacturer’s warranty and quality post-sales Crown service, can help New Zealand businesses improve productivity and efficiency while reducing their total cost of ownership.

Hopefully, such Initiatives can be further expanded and implemented in many more countries and cities to create a circular economy and sustainable future.  

For more information, please visit the “Trade In – Trade Up” promotion page to learn more about the programme.

SOURCE Crown Equipment Pty Ltd Press Release

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Global Transition Towards Electric Vehicles Poses Major Challenges.

Global Transition Towards Electric Vehicles Poses Major Challenges.

It seems that not much has changed from the age of petrol-fueled vehicles to our current era of electric vehicles(EVs). Scientists are still grappling worldwide over the depleting availability of resources and the effective usage of those resources to meet the rising demand in the automotive industry.

By Ashwini Balan, Eastern Trade Media

General Motors earlier this year announced their commitment towards being carbon neutral, and added that by 2035, all their vehicles will consist of zero tailpipe emissions. Audi, another leading multinational automotive manufacturer, pledges to end the production of combustion-engine by 2033.

With these two market leaders taking the leap forward to an all-electric future, many multinational companies are overwhelmed with the pressure to quickly transition to EVs to maintain their competitive edge but more importantly, meet the rising consumer demand. Boston Consulting Group (BCG) analysis forecasts that by 2026, more than half of new passenger vehicles sold worldwide will be electric.

With the shift from fuel-intensive to material-intensive energy sources, there are two main concerns that scientists are struggling to resolve. Firstly, to reduce the usage of metal in batteries as it is scarce, expensive, environmentally toxic and working conditions hazardous to miners. Secondly, would be to create a recyclable battery system to maximise the utility of the valuable metals available.

Lithium-ion batteries are highly used in EVs due to their low cost which is 30 times cheaper than when they first entered the market in the early 1990s[1]. In addition, BNEF estimated that the current reserves of lithium— 21 million tonnes, according to the US Geological Survey — are enough to carry the conversion to EVs through to the mid-century.[2]  Hence, what concerns researches in EV batteries is Cobalt and Nickel.

In an attempt to address this issue, researches have been experimenting in removing both cobalt and nickel from the composition of EV batteries. However, to successfully remove them would radically transform the cathode materials. In recent years, Ceder’s team and other groups have displayed that certain lithium-rich rock salts were able to perform without the use of cobalt or nickel and yet remain stable in the process. In particular, they can be made with manganese, which is cheap and plentiful, Ceder says.[3]

To create a battery recycling system, another hurdle to overcome is the cost of recycling lithium. A potential solution would be through government support, which is seen in China where financial and regulatory incentives for battery companies are given to source materials from recycling firms instead of importing freshly mined ones, says Hans Eric Melin, managing director of Circular Energy Storage, a consulting company in London.

It is also problematic for manufacturers in their recycling efforts, when the chemistry of cathodes become obsolete at the end of the cars’ life cycle. In response to that, material scientist Andrew Abbott at the University of Leicester, UK developed a technique for separating out cathode materials using ultrasound. He adds that this method works effectively in battery cells that are packed flat rather than rolled up and can make recycled materials much cheaper than virgin mined metals.[4]

Scaling up the volume of lithium also aids in reducing the cost of recycling and this would make it economically viable for businesses to adopt it says Melin. The example of lead-acid batteries — the ones that start petrol-powered cars — gives reason for optimism.  “The value of a lead-acid battery is even lower than a lithium-ion battery. But because of volume, it makes sense to recycle anyway,” Melin says.[5]

With the collaborative effort among policymakers, researchers and manufacturers an all-electric future is an attainable reality.

References of Content:
Original Article Source: Davide Castelvecchi, 2021( )

[1]  M. S. Ziegler & J. E. Trancik Energy Environ. Sci.2021

[2]  BloombergNEF. Electric Vehicle Outlook 2021 (BNEF, 2021)

[3]  Yang, J. H., Kim, H. & Ceder, G. Molecules 26, 3173 (2021)

[4] Lei, C. et al. Green Chem. 23, 4710–4715 (2021)

[5] Melin, H. E. et al. Science 373, 384–387 (2021).

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Nissan Launches First Electric Vehicle Batteries Recycling Plant In Japan

Nissan Launches First Electric Vehicle batteries Recycling Plant In Japan

Fukushima, Japan: Lithium-ion batteries from electric vehicles (EVs) will be given a new life at Japanese automaker Nissan’s Namie factory, as this refurbished battery for the Nissan Leaf car make will be sold at half the price—at 300,000 yen (US $2,855.51) of brand-new ones.

A joint venture between Nissan and the trading firm Sumitomo Corporation has been established, and the initiative is operated by 4R Energy Corporation.

According to Eiji Makino, chief executive of 4R Energy Corporation, “By reusing spent EV batteries, we wanted to raise the (residual) value of EVs and make them more accessible.”

When the batteries enter the plant, all 48 modules will be assessed over a four-hour proprietary process. Currently, the process is customised predominantly for the electric-powered first-generation Nissan Leaf.

However, batteries that have fallen below 80% of their energy capacity are not used for the Leaf recycling programme but are reassembled for lower-energy vehicles like golf carts, forklifts or for low-intensity functions in street lamps.

Mr Makino has also commented on 4R’s consideration to broadening their battery range to cater to more recent Leaf models, which consist of different chemical composition. The factory is expected to produce 2,250 battery packs, and several hundred other refabricated sets, annually.

Discussions are also underway for 4R to retrieve other reusable materials from used EV batteries, albeit the difficulty to completely dismantle them to be recycled on their own, said Makino.

The move is a game-changing one in the industry, as recycled batteries get circulated back into the life span of electric cars to impact the demand for new EV battery materials.

With a growing demand for EVs, automakers worldwide are seeking to make more cost-effective and durable batteries, which right now can account for up to a fifth of an EV’s cost due to increasingly expensive materials like cobalt and nickel.

As resources such as lithium and cobalt—fundamental materials in lithium-ion batteries powering EVs—become more critical in the near future, this sustainable treatment of worn batteries can potentially serve its environmental purpose in decreasing the pressure on scarce resources.


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