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Startup that Hopes to Solve Orbital Congestion Problems

There are reports that specific company Kayhan Space, a Colorado-based company, wants to be an air traffic control for satellites in orbit. The venture holds a lot of promise as being one of the few companies to tackle this problem. The company results from a passion project by two friends Araz Feyzi and Siamak Hesar from Iran. Both founders are immigrants from Iran who flew in on an exchange program to finish their college education.  Their innovative idea hopes to take care of coming problems in space expedition that will reduce collisions in space leading to the destruction of multimillion-dollar investments.

Current figures of the total number of satellites in space place them at 8,000 in a lower orbit. However, the number is set to rise, especially if Amazon’s plan to launch 3,236 satellites is successful. Moreover, SpaceX announced its interest in deploying 30,000 more satellites into space to help develop its communicating network. There is a looming safety problem due to the increased number of satellites floating in the air without monitoring. There are high chances that orbiting satellites will collide, resulting in debris falling to Earth and risking high capacity damage.

The company’s founders connected while trying to solve a problem before it starts. Hesar is a student at the University of Southern California in Aeronautics, doing his master’s degree. He is also doing his doctorate in astrological engineering at the University of Colorado. Hesar is a past intern at the NASA Jet propulsion laboratory and has experience in situational awareness and Systems control technology working at SpaceNav and Blue Canyon Technologies.

On the other hand, Feyzi is a business guru specializing in startups. Feyzi’s achievements include laying the groundwork for Syfer, an Atlanta based company dealing in developing innovations to improve online security for IoT devices. By integrating the expertise from their respective lines of work, Feyzi and Hesar birthed the idea of a cloud-based algorithm Capable of predicting possible collisions in space. This innovation allows them to alert satellite operators of potential threats in collisions that occur in low- orbit.

Both founders confirm that assigning the work to software is not possible. This occurrence is because of a lack of international standards in satellite technology worldwide. They provide an example of a Russian military satellite on a collision course with a US-based satellite; the software cannot predict and decide in time to avoid a collision. However, there is a need for a universally accepted monitoring body capable of predicting and providing solutions to both sides when required.  the Startup is only in its initial stages but holds great promise to the Future of exploration and communication to satellites


The initial solar power factory in Armenia

The Reconstruction and development IFC bank from Europe, which is a World Bank Group member, and also the European Union (EU) has concurred to back the building up of the original utility-scale solar energy factory in Armenia, and it is also the first in the Caucasus. The power plant facility, 55 MW, is situated in Mets Masrik metropolis of Gegharkunik Province. It will increase Armenia’s renewable energy supply and help the country reduce its dependency on imported fuels. 

The factory is being built up by Fotowatio Renewable ventures (FRV), a section of Abdul Latif Jameel Energy, a world leader in renewable power projects. The firm will get a $35.4 million debt funding package comprising of two $17.7 million long-term financial ventures, one for both from EBRD and IFC. The project will also be given 3 million Euros in investment funding from the European Union, organized by EBRD. The IFC funding package comprises an $8.9 million advance from the IFC’s own account and $8.9 million increases from the Finland-IFC merged Finance for Climate Program.

The Masrik solar factory is anticipated to produce more than 128 gigawatts of electricity hours in a year at a possible tariff of 4.19 cents per kilowatt in one hour. The electricity will then be traded under a power purchase contract to Armenia Electricity Networks, a facility accountable for electricity allocations. The project will relocate the release of 40,000 tons of annual carbon emissions. Currently, about 70 percent of Armenia’s electricity production relies on imported fossils. As the nation’s electricity demand grows, recyclables are anticipated to offer sustainable and affordable alternative energy sources, and the Masrik factory is made to be an excellent example for the other Caucasus. 

The director of EBRD, Aida Sitdikova, confirmed that EBRD is pleased to back up the project since it builds its active rule engagement and ventures in the Armenian energy sector since the year 1993. After the EFRD funds’ electricity networks, personal generation, and privatizations, they are delighted to offer to fund for the solar project. They are operating with lawmakers on building further recyclable auctions in solar and wind. He added that they are delighted to their associate, the European Union, for co-funding the unique project with them. Mikel de Irala, the Managing Director of the Middle East and Africa, FRV stated that Armenia has a considerable probability of developing recyclable energy, particularly solar power. The nation is a planned FRV priority. 


Largescale Ventures Deconstruct Renewable Energy Prospects

Walmart is making significant leaps in renewable energy adoption since joining the fight against carbon-based fuels. While the company’s efforts did not start recently, it announced a renewed commitment to achieving its previously set renewable energy goals.   A cumulative energy report from the company shows that renewable energy contributes 30% of total energy production. However, the company expressed that its goal is to rely on renewable energy entirely by 2035.

Walmart’s Chief Sustainability Officer Kathleen McLaughlin explains that most of its renewable energy prospects are attainable through Power Purchase Arrangements (PPAs).  These are provisions where Walmart dictates a supplier’s purchase options by encouraging them to buy into green energy prospects.  This practice has helped the company to realize substantial savings of up to 1.2 gigawatts of power from 2018 to 2019. This outcome is massively comparable to results from the U.S solar industry that successfully installed 3.62 gigawatts of photovoltaic generation cells in the first four months of 2020.

 However, the company’s renewable energy efforts do not stop there.  Walmart plans to trim down its supply chain, releasing carbon emissions by 1-gigaton come 2030. The plan is a projection nicknamed project gigaton. Walmart plans to roll out this newly tested project to its suppliers, enabling them to group together and by renewable energy.  The project has advantages because it allows small players to join with substantial parties and still benefit from buying massive amounts of renewable power at low costs. Currently, Walmart has managed to convince 100 corporate bodies into this scheme.

According to McLaughlin, the initiative comes as a relief to the suppliers as they were continually searching for ways of contributing toward preserving the environment.  Walmart’s efforts in the Gigaton PPA arrangement process allowed these companies to come together and take advantage of Walmart’s procurement team. She states that the company is glad that minor companies use the Gigaton project to join efforts towards decarbonizing the supply chain. 

Similar styled projects include UK-based energy company Ripple Energy that integrated a system that assists local business entities and collectively purchases renewable energy. Ripple energy uses a different system by enabling individual companies to buy shares and a prospective company focusing on providing renewable energy.  Once completed, the prospect hopes to set up her integrated system to supply renewable energy to homes. 

For a long time, prospects in renewable energy were perceived as massive and unattainable.  However, the venture in micromanaging renewable energy sources by large-scale retail entities like Walmart and ripple energy helps to deconstruct this hurdle, ensuring efficient green energy adoption.


Satellite Vu targets to range out the entire world with thermal visualization

Earth surveillance has matured from government-run operations to an important each day business instrument; nonetheless, it still has space for maturity. Particularly, into the warm air electromagnetic spectrum, that is if start-up “Satellite Vu” gets to the orbit by itself. The firm intends to be capable of monitoring the heat signs of many of the universe’s buildings alongside a satellite set made for that purpose.

Chairperson of Satellite Vu, Anthony Baker, expounded on the big market for any person who could tell with exactness how much heat was being released by buildings, farms as well as other characteristics. Heat could designate bad lining for one thing as well as a surplus of energy on HVAC and indicate the factual hours of function in a factory. It could trace burning natural gas or even waste releases from plants, with a steadfastness of about 3 to 4 meters. It may be capable of estimating the presence of outdoor happenings, troop focus in warfare. All these can be done during the night when there is intense darkness.

Baker revealed to TechCrunch that he had a feeling about the Earth surveillance business, even after producing fruitful attempts such as the planet, they still had a lot of space for maturity. He expounded that they could display what is going on inside compared to Google Maps and Planet, which could only display what is going from the outside.

The technology behind it is both recent and old. Electromagnetic magnetic detection falls back in decades. Nevertheless, performing so from the orbit to around a portion of a degree is a dissimilar proposal on this stage of aspect. The technology Satellite Vu is grounded on an Oxford-advanced sensor belonging to the Lunar Trailblazer orbiter, which would look for moisture on the moon’s surface. The firm has a special permit for it.

Baker stated that they took the sensor and space-strengthened it, as well as conducted the fresh space stuff such as reduction and power optimization. He further added that the challenge with building the gadget smaller and more effective was that it affected the image, alters it, and blurs it. Hence they discovered a way to fix that.

Satellite Vu trails the actions of Google and Apple, and many others who endeavor to upgrade the cameras of their smartphone have discovered that there is a valuable slight upgrade to be made out of the hardware, hence concentrated on the software rather. Like the ones for the tech firms, Satellite Vu’s system gathers data from many of sequential photos and deduces that to an upgraded solitary one.


Covid-19’s Silver Lining  

The Covid-19 virus laid waste to the year 2020. Several businesses and living sources have been affected, and many people cannot provide for their daily needs. However, there is a positive effect of this outcome; the planet got an opportunity to regenerate. There are reports that more individuals have to be aware of the importance of public health. 

Moreover, the renewable energy scene stands to benefit in essence. While Covid-19 ultimately caused a system shutdown for most economies, it also provided an allowance for economies to reset from the status quo. The lockdown opened a new mind-set to replace the conventional carbon-based forms of transportation. As economies restructure their economies, there is an opportunity to integrate renewable energy into the economy. 

As Covid-19, recedes countries have the chance to put in place measures that will push investment towards a sustainable future. The pandemic stands as an excellent example of why sustainable energy is essential for the world at large. There is a greater need to play sustainability at the forefront of the recovery process.

Renewable energy possibility has the capacity to counter long-standing climate conditions. By minimizing carbon emissions plan, the planet can recuperate and then back to the initial Natural setting. However, renewable energy also can provide new jobs including jobs in the innovation space, which can help develop new technologies to make life better. According to a report, an average of 25 jobs can come from a four million-dollar investment in renewable energy. Likewise, efficiency-based investments can generate close to 10 jobs.

There is a hidden potential in renewable energy for global economies. According to a report from the international renewable energy agency, renewable energy have the opportunity to increase global GDP by 98 trillion dollars. The sector also could create 63 million jobs by 2050. It is also applicable for adversely affected economies like India, which recorded job losses of close to 100 million jobs during the coronavirus outbreak. According to the report, such economies like India have been a city to generate 1.3 million full-time jobs if they attain generating and 60 gigawatts of energy by 2022.

The UK is not the only party that stands to benefit from shifting to renewable energy. Looking at China, there is an opportunity to minimize energy expenses realized from importing coal-based energy sources. Renewable energy sources are continuously setting themselves as less costly alternatives, and it is only a matter of time before they fully upgrade into world economies 


Virgin Orbit awards ExoTerra a contract to develop its LauncherOne’s upper stage

The successful space launch missions inaugurated this year formed the basis for space companies to schedule more space projects. The planned commercial space expeditions aim to send more scientists and astronauts to other planets searching for conditions that could favor human habitation. The overwhelming human population on Earth renders the planet incapable of providing enough natural resources. The situation worsens with the recent threats from global warming and climate change. The devastating effects continue to stir up several research projects that aim to establish a permanent human settlement in other places in the solar system. The first destination is Mars, famously known as the Red Planet, one of the few planets with the possibility of supporting human life. The space industry continues to receive considerable investments to facilitate the necessary scientific research needed to ascertain the planet’s environment. Recently, a developer of space technologies launched CubeSats to study Mars’ atmospheric conditions to compare it with Earth. The satellites evaluated the interactions of the atmospheric currents and the radiation energy from the Sun. 

ExoTerra Resources, a startup based in Colorado, received a contract from NASA’s program for Small Business Innovative Research (SBIR) on October 5. ExoTerra will develop a solar-powered upper stage for Virgin Orbit’s launch vehicle, the LauncherOne, to enable a smooth spaceflight for satellites traveling beyond the Earth’s lower orbital path. ExoTerra plans to innovate the Solar Electric Propulsion Upper Stage or SEPUS for the LauncherOne for customers seeking to reach destinations far beyond. Outer space such as the geostationary orbit, the Earth-Moon Lagrange coordinates, the Moon’s lower orbit, and the Trans-lunar Injection Orbit. According to a press release from ExoTerra, the development of the cutting-edge propulsion technologies will unlock limitless opportunities for more crewed missions to explore outer space. Commercial spaceflight service providers continue to show interest in becoming potential customers for ExoTerra’s technology for rocket boosters. 

ExoTerra’s officials said that the contract allows the company to kick-off the development of the SEPUS, designed to deliver nearly 150 kilograms of shipment to Moon. The propulsion system will transport several 180-kilograms deliveries to the geostationary orbit. The scheduled missions will pioneer the integration of the eagerly awaited SEPUS into future launch vehicles for upcoming launch missions with or without crew members. In 2019, Virgin Orbit announced the plans to send miniature satellites to the Red Planet by 2022 for SatRevolution, a satellite manufacturer based in Poland. 

In conclusion, Virgin Orbit anticipates growth in customer demand for LauncherOne spaceflights to an elliptical orbit, the Moon, the Red Planet, Venus, geostationary orbit recently studied asteroid belt. Many space enthusiasts cannot wait to see asteroid rock and boulders’ fascinating scenery in outer space.


Three techniques that will help India escalate its uptake of electric vehicles while reviving its economy 

The coronavirus pandemic has had an enormous negative impact on India’s economy. The current statistics show that India’s economy witnessed a 23% drop in the three months when the coronavirus pandemic numbers rose. The most affected industries in India are construction, manufacturing, transport, catering and trade. Details from the McKinsey Global Institute (MGI) report explained that the economy’s compression had been the worst in this pandemic period.

The study revealed that India could use the coming one-and-a-half years to restructure its economy by investing in sustainability, urbanization and manufacturing to open new jobs for the country to advance. The significant revamp of the economy could require the uptake of electric vehicles in the entire region.

The Delhi Electric Vehicle program is going to open the economy once over 500000 electric vehicles enter registration. The government will offer tax incentives and rebates that will facilitate the affordability of electric cars. The purpose of this program is to help the city resolve the pollution problem and accelerate economic growth. Nevertheless, the country must uphold the following strategies to accelerate the uptake of electric vehicles.

First, the country must establish charging stations at shopping facilities and retail centers. Since these facilities are still operational by half the regular business, they are ideal for charging stations to encourage more Indians to buy electric vehicles. The people will be sure there are charging points at the next retail outlet on their electric car’s journey. The Delhi Electric vehicle program will help the government develop over 200 charging stations annually, facilitating the development of charging stations at a separation distance of 3km in the next four years.

Next, the country must establish smart grids to connect the charging stations to renewables. Studies by the International Energy Agency (IEA) indicated that although the electric vehicle uptake increases electricity demand, they help minimize greenhouse gas emissions and fossil fuel usage. This strategy allows the country to realize the Paris agreement regulations on climate change by reducing carbon emissions.

Additionally, Delhi can partner with the national government to minimize excise duty on electric vehicle imports. This strategy will facilitate the uptake of electric vehicles in the whole country. The current collaboration between the central government and Delhi has availed incentives for buying and producing electric cars. To conclude, two governments can introduce negative incentives for ICE systems and other fossil fuel consuming projects. Pricing measures against ICE cars will inform the uptake of electric vehicles in the country. 


German Beginner Rocket Workshop Augsburg Nominates Norway for First Flight of RFA One Smallsat Take-off

A German company Spacecraft workshop Augsburg has chosen the Norweigan launch center Andoya space station for a 2022 first flight of the organization’s RFA One small satellite take-off machine. Rocket Factory Augsberg was initiated in 2018, and it is now on the verge of designing a three-phase RFA One spacecraft. The minor satellite launch machine carries a generator first phase plan driven by nine liquid-fueled generators and single generators. Launching off from Norway’s space station, the spacecraft will be able to transport approximately 1300 kg of cargo to a distance of 300 kilometres; this was stated by Ibrahim Ata, who is the spokesperson of the of Rocket Factory Augsburg (RFA).

On the 24th of September, Rocket Factory Augsburg contracted an agreement with Andoya space, and this is a Spacecraft 90% possessed by the Ministry of Trade. Industry and Fisheries in Norway to propose launching assistance to minor satellites far from the RFA One from a fresh orbital kick-off centre. The building of the first-hand centers is estimated to start in the year on the islands of Andoya, which is 35 kilometers away on the south of the Andoya space station center. The original center’s place was chosen after an intense procedure of four years that analyzed some possibilities, which comprised of safety analysis, environmental studies, and a test of the viability of accessing the station.

At the beginning of the year, the Norwegian executive provided Andoya Space with 38.5 million dollars to support all the facility structures; this was a statement made by Odd Roger Enoksen, the Chief Executive Officer of Andoya Space, in an email to Space News. Additionally, the Andoya space station is estimated to have autonomous integration amenities plus all compulsory maintenance structures. Furthermore, Enoksen mentioned that the space station strategies to invite more than four launch stakeholders, including the Rocket Factory Augsburg (RFA).

Ata declared that the Norwegian space station is a good choice for the firm’s RFA One. Moreover, the authority sponsored 365 krone funding, easy accessibility to SSO, among other important assistance to the firm choosing Andoya. The original Andoya space station Launchpad is anticipated to be set at the end of 2021. The subsequent pad will be ready by 2022, with the station attaining full operating potential by 2023. Also, to signing a contract with Andoya space, RFA mentioned on the 29th of September. It had also finished an important of the original arrangement stage needed to build a space station for Rocket Factory Augsburg One. 


Avondale goes green by establishing a brand-new charging station for electric vehicles (EVs) 

The devastating impacts of climate change and global warming on humanity are a wake-up call for many countries to reconsider their future economic development strategies. State governments continue to restructure their policies to accommodate the goals for sustainable energy. The state administrations continue to implement projects that boost technological advancements in reducing emissions of greenhouse gases. The transportation industry is one of the leading emitters of CO2, increasing the global carbon footprint. Other industries top-ranking in high carbon emissions are energy and electricity generation, manufacturing, and industrial process such as heating—the initiatives for electrification in the transportation sector pioneer the adoption of zero-emission vehicles. 

The two approaches to the strategic plan advocate replacing fossil-fuel-powered vehicles engines with electric motors or hybrid cars. Huge investments from state governments and energy cooperations boost the advancement of electric vehicle technologies. Recently, a manufacturer of EV battery developed a revolutionary technology that uses Artificial Intelligence (AI) to improve their production process. Companies plan to release funding to roll-out the development of the infrastructure necessary for large-scale electric vehicle production. 

Avondale is among the cities that promised to go green. The city’s transition to clean energy comes when nations plan to adopt electrification of their transportation sector. Recently, Avondale commissioned its first-ever EV charging station for public owners of electric vehicles. Approximately 85,000 residents living in Western Phoenix are part of the city’s suburb. The newly commissioned charging station is in a parking lot in the Civic Center Library. The electric vehicle charger’s capacity of 11350 W can service two EVs concurrently. The station’s capability will benefit EV owners traveling through the institution and anticipating to add some extra battery charge for their journeys. 

The ChargePoint is a level two charging station that is open and free for public use. Avondale developed the charging system to charge $1 every hour for electric charging for more than two hours. Electric vehicle owners spending less than two hours pay nothing for the charging services. The municipal administration of Avondale city collaborated with energy utility companies such as APS and SRP to install the charging station. The project cost the city approximately $8,500 to buy and operate the EV charging station for five years. 

The Avondale administration anticipates that the brand-new ChargePoint will boost EVs’ transition by encouraging the residents to purchase more zero-emission vehicles. The strategy aims to eliminate emissions that increase Avondale’s carbon footprint. Carbon emissions from fossil-fuel-powered vehicles contribute to nearly 50 percent of the city’s emission of greenhouse gases. Danae Presler, the sustainability officer in Avondale, said that cars running on diesel or gasoline engines contribute to air pollution. In summary, the report indicated the necessity to electrify the city’s transportation industry.