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NuRAN Wireless Reveals It Is Significantly Behind In Deployment Of Tech In Cameroon

NuRAN Wireless (CSE: NUR) this morning issued a corporate update on the deployment of its wireless network in the country
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This article was originally published by The Deep Dive

NuRAN Wireless (CSE: NUR) this morning issued a corporate update on the deployment of its wireless network in the country of Cameroon. It appears progress is substantially behind, which has been blamed on global supply chain issues.

The company this morning indicated that it currently has ten sites live in the country for its wireless network that is under contract with Orange, with an additional site expected to come online shortly.

The current count of online sites is significantly short of the targeted 48 sites that were to be online by the end of October, with the company blaming the delay on the sourcing and delivery of batteries for the sites. A further 74 sites were then to come online by December 15.

The company has reportedly now received the materials needed for the initial 48 locations, with a timeline for deployment not provided by the company.

On the positive side, the firm reported that it has seen a 37% subscription rate on average for those sites in operation, with the firm originally anticipating a rate of only 25%.

Meanwhile in the DRC, the company reportedly has the material required for the initial 60 site roll-out that is planned, which is currently projected to be completed by year end. Advanced negotiations are reportedly ongoing as well for expansion into further countries.

NuRAN wireless last traded at $1.30 on the CSE.


Information for this briefing was found via Sedar, and the companies mentioned. The author has no securities or affiliations related to this organization. Not a recommendation to buy or sell. Always do additional research and consult a professional before purchasing a security. The author holds no licenses.

The post NuRAN Wireless Reveals It Is Significantly Behind In Deployment Of Tech In Cameroon appeared first on the deep dive.

Author: Jay Lutz

Energy & Critical Metals

PPSI Stock: 14 Things to Know as Pioneer Power Squeezes 50% Higher

Electric vehicle (EV) names have been catching momentum the past few months, and today it looks like a new name has decided to join the party. This morning,…

Electric vehicle (EV) names have been catching momentum the past few months, and today it looks like a new name has decided to join the party. This morning, shares of Pioneer Power Solutions (NASDAQ:PPSI) soared as high as 50% during premarket trading. Earlier this month, the EV charging company launched three charging products designed to maximize range.

Electric Cars Charging Station Closeup Photo. Vehicle Rechargeable Batteries Charing. Future of Transportation.Source: Virrage Images / Shutterstock.com

Additionally, PPSI stock is currently ranked #1 on Fintel’s Short Squeeze Screener, with a score of 99.4 out of 100. Within the screener, 100 means a short squeeze is very likely and zero means a short squeeze is very unlikely. Furthermore, the score is based on several factors, such as short interest, borrow rate and volume.

Let’s dive into some key highlights about PPSI stock.

PPSI Stock: 14 Things to Know

  • Shares of PPSI stock have increased by 180% over the past month.
  • The designer and manufacturer of electrical equipment serves industrial and commercial markets in the U.S.
  • The company trades at an $89 million market capitalization and reported revenue of $5.7 million last quarter.
  • Additionally, Pioneer Power Solutions launched three new products this month: the E-Boost G.O.A.T (generator on a truck), the E-Boost Mobile and the E-Boost Pod.
  • The E-Boost G.O.A.T. is a truck-mounted generator that can provide on-demand charging at any convenient location.
  • The E-Boost Mobile is a trailer-mounted charging solution that capitalizes on mobility. It can be used at large events to service charging needs, such as sports gatherings.
  • The E-Boost Pod is a stationary charging station that utilizes DC Fast Charging (DCFC). Impressively, the Pod can charge two vehicles simultaneously and can also be used as a generator during emergency situations.
  • These new products focus on portability and mobility, seeking to eliminate “range anxiety.”
  • Geo Murickan, president of Pioneer, believes that the adoption of EV vehicles is “accelerating at a pace faster than EV charging infrastructure development can service. The increasing number of electric vehicles will require mobile charging capability to go where the need is. As a result, there are unique opportunities to fill the gaps and establish a market capability to service the coming massive introduction of EV vehicles.”
  • At the end of October, short interest was 32,000 shares.
  • However, by mid-November, short interest had jumped 5,000% to 1.6 million shares.
  • Indeed, 1.6 million shares comprises 40.9% of PPSI stock’s total float.
  • Additionally, the borrow-fee rate is currently 82.08%.
  • It would take 2.47 days to cover all of the shorted shares.
  • On the date of publication, Eddie Pan did not have (either directly or indirectly) any positions in the securities mentioned in this article. The opinions expressed in this article are those of the writer, subject to the InvestorPlace.com Publishing Guidelines.

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    Author: Eddie Pan

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    Energy & Critical Metals

    The importance of power flexibility to reach net zero

    We need to drastically increase flexibility within our power systems to ensure sufficient renewables integration and achieve the world’s net zero pledges…

    We need to drastically increase flexibility within our power systems to ensure sufficient renewables integration and achieve the world’s net-zero pledges and Paris Agreement goals.

    This was one of the core sentiments expressed by Enrique Gutierrez, Analyst at the International Energy Agency, in his session at Enlit Europe.

    According to Gutierrez, flexibility plays a key role in reaching emissions targets and how the world is tracking on the road to net zero.

    Enrique Gutierrez, energy analyst, IEA, France

    “Progress has been made since the Paris agreement, with countries announcing their zero pledges at COP26 in Glasgow. However, we need to accelerate the deployment of clean energy.”

    The International Energy Agency (IEA) created various scenario’s to track the world’s decarbonisation progress, as well as to measure what still needs to be done.

    Solar and wind will lead the generation space. However, the Net Zero Emissions by 2030 scenario requires around 1000GW of solar and wind to meet decarbonisation and energy access goals.

    Gutierrez: “Adding this amount of renewable energy will radically change the way we operate our system.”

    Across the various scenarios, variable renewables take the lion’s share in generation supported by dispatchable low carbon fuels

    Image credit: IEA

    According to Gutierrez, there needs to be an ambitious and dramatic increase in installed capacity in order to meet the net-zero goals. This, in turn, will require a rapid increase in investments.

    “One of the key areas requiring investments is grids – which will be a key enabler of the flexibility requirements to allow the increase in variable renewable energy.”

    Image credit: IEA

    Achieving flexibility

    Gutierrez explained that in order to transform power systems and increase renewables, flexibility is vitally important. In order to cover flexibility requirements, the world can expect a change in the generation matrix to ensure a variety of available resources.

    “Coal will be displaced although it will continue to play a role in terms of flexibility. New technologies such as batteries and demand response will kick in and interconnections will play a much more significant role in balancing the power system.

    “Of course, to enable the interconnections, we need investments in grids and networks to support inter-regional trading.”

    China as an example. Image credit: IEA

    Gutierrez emphasises the importance of preparing markets for the participation of these new technologies and renewable resources in order to drive deployment and ensure remuneration for the value they provide to the system.

    As renewable capacity increases, another key consideration to be addressed is maintaining system inertia – which is key to stability, said Gutierrez.

    “We need to update practices and regulatory frameworks to incentivize the right mix of technologies in the power system”.

    In terms of systems and technologies, Gutierrez explained what is required depending on the amount of variable renewables integration.

    • With +- 60% share of instantaneous renewable penetration, more stability can be guaranteed by maintaining some conventional generation rotating machines.
    • With higher variable renewable deployment, +- 80% penetration, new market or response services can be introduced to keep the system in balance.
    • In systems with 80% + of renewable integration, technology or asset-based solutions become key. These include synchronous condensers as well as developing grid forming capabilities such as batteries.

    Many of these solutions are in the R&D phase, however, deployment at scale still needs to be understood properly in a way that minimises cost, said Gutierrez.

    Another source of flexibility will be interlinking to other parts of the energy sector, such as the planned interlinking between the gas and electricity grid, which, according to Gutierrez, is becoming more critical.

    “Gas will provide a significant role in providing flexibility in the short term, so we need a greater understanding of the flexibility that can be provided by the gas grid that can be relied upon by power system planners to cope with seasonal fluctuations.”

    Image credit: IEA

    To ensure flexibility, said Gutierrez, we will see an increased focus on demand shaping to cope with and reduce peak loads, as well as smart charging.

    As transport electrifies, smart charging will become more important to ensure system savings, however, to achieve this successfully, Gutierrez recommends closer policy coordination between sectors providing appropriate pricing signals.

    Gutierrez concluded by emphasising the need to shift our understanding of the power system, from a traditional centralised system to a new decentralised system.

    “This requires demand response in buildings, transport and also using the capabilities in variable generation and ensuring we have a better-interconnected system to enable coordination in a secure manner.”

    Enlit Europe logo in black

    We can’t wait to see you in Milan

    Enlit Europe will bring the energy community together during the live event in Milan (30 November – 2 December 2021). Register here

    The post The importance of power flexibility to reach net zero appeared first on Power Engineering International.


    Author: Pamela Largue

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    Energy & Critical Metals

    NEO Lithium’s Closest Neighbor Gets Ready to Drill

    If you believe in the old adage, “the best place to find a deposit is near an existing one,” you should consider Portofino Resources (TSX-V: POR)…

    lithium_triangle_portofino_resource

    When Neo Lithium started early stage exploration they recovered surface lithium grades of 190 mg/L compared to 373 mg/L for Portofino Resources adjacent Yergo property.

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    If you believe in the old adage, “the best place to find a deposit is near an existing one,” you should consider Portofino Resources (TSX-V: POR). This Vancouver-based company holds an option to acquire a 100% interest in the Yergo lithium brine project located in Argentina, in the heart of the Lithium Triangle, along with the Allison Lake North lithium and rare elements property. Portofino also owns five gold projects in Canada, and is overseen by an exceptional management team with deep experience in the resources industry.

    One of the reasons that all eyes are on the Yergo project is the growing demand for lithium to support the green revolution. As one of the world’s lightest metals, lithium is playing one of the largest roles in our green and clean future. Demand is predicted to increase seven times over the next 10 years, reaching a total global demand of 1.79 million metric tons. Furthermore, for every 1% surge in battery electric vehicle (BEV) market penetration, the world’s need for lithium will rise by an estimated 70,000 tonnes per year. 

    This has industry experts asking – where will the supply come from?

    Sharing a similar geological history with a world class asset

    Argentina, Chile, and Bolivia comprise what is known as the Lithium Triangle, and these countries host a whopping 75% of the world’s lithium resources. Portofino’s Yergo project is a salar located approximately 15 kilometres southeast of Neo Lithium’s 3Q project – one of the largest and highest-grade lithium brine deposits in the world. It was initially discovered in late 2015 and took only five years to advance to the construction phase. In October of this year, Neo Lithium announced it had received an all cash, takeover offer of $960 million for all its outstanding equity from Zijin Mining. 

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    Situated in the Lithium Triangle which accounts for >40% of global production in concentrates and >90% of lithium brine resources, Yergo’s close proximity to the 3Q project is significant because the 3Q deposit hosts some of the lowest sulfate and magnesium impurities, classifying it as a world class asset. Furthermore, the 3Q project has measured and indicated resources of lithium grades of >900 mg/L. Portofino’s Yergo project is potentially an extension of the same salar as this neighbouring project with similar grades and low impurities. David Tafel, Portofino’s President and CEO commented:

    “Given the proximity of Neo Lithium’s 3Q project, it is likely that the Aparejos salar has experienced a similar geological history, including lithium and potassium enrichment, due to their common evaporitic climate and local geology. The 3Q and Yergo projects are located within the same volcanic package likely with exposure to the same potential lithium source rocks and mineralizing processes.”

    Portofino carried out an initial exploration program at the Yergo property in 2019 which included surface and near-surface brine sampling and geological mapping. The sample results reflected values of up to 373 mg/L lithium with low impurities. Following the initial sampling program, Portofino conducted a geophysical survey and geochemical sampling program in 2021. The project is drill ready with an initial drill program expected to commence shortly which will test the volume and content of the brines. 

    Neo Lithium started early stage exploration at their 3Q project in 2016/2017 and recovered surface lithium grades of 190 mg/L compared to 373 mg/L for Yergo. Subsequently, Neo Lithium discovered surface samples in the northern salar containing an average lithium concentration of 784 mg/L. 

    While we’re not implying that Yergo is definitively an extension of 3Q, we believe it’s a high odds possibility, and results from the their drill program will prove out Yergo’s significant potential. 

    In April 2021, Portofino reported that it was adding to its lithium portfolio with the acquisition of the Allison Lake North lithium and rare elements property, located 100 kilometres east of Red Lake, Ontario. It is accessible by logging roads while a hydro-electric power line runs through the property. Ontario is home to several well-known lithium and rare element deposits, notably the PAK lithium deposit along the “Electric Avenue,” as well as the Spark deposit. 

    Portofino completed a channel sampling and initial exploration program at the Allison Lake project in June, 2021. Initial grab samples returned values up to 398 ppm Li, 90.5 ppm Cs, 1040 ppm Rb, and 135 ppm Ta. Looking forward, this project will be the focus of an expanded geological exploration program. 

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    This is highly significant when considering that the global quest for electric vehicles and clean energy has caused lithium to emerge to the forefront as one of the most necessary components for lithium-ion batteries. Market penetration for electric vehicles is estimated at ~4% globally and is anticipated to jump to roughly 30% over the next decade. Furthermore, the processing of lithium brine to produce battery-grade lithium carbonate is a relatively simple process which has been tested for over 20 years. With the Zijin Mining proposal to acquire Neo Lithium for its 3Q project, it’s not a stretch to assume that other acquisitions and joint ventures will follow. 

     

     

     

     

    Add in a high-grade gold portfolio

    In addition to it’s two lithium projects, Portofino also holds the South of Otter and Bruce Lake projects in the Red Lake District, as well as Gold Creek, Sapawe West, and Melema West projects in the Atikokan District of Ontario. Both South of Otter and Bruce Lake projects are proximal to the Dixie Gold project, a high-grade gold deposit currently being explored by Great Bear Resources Ltd. (TSX-V: GBR). In the Atikokan District, the Gold Creek property is located immediately south of the Shebandowan Ni-Cu mine, and the Sapawe West and Melema West properties are located east of Atikokan.