List of Rovers sent to Mars from Earth

NASA has been sending five robotic rovers to Planet Mars well over the years. The 5 rovers are named as Sojourner, Curiosity, Spirit & Opportunity, and perseverance.

Mars is a world of fascination. The cold is freezing, and the soil is reddish. These have volcanoes, ravines, and plains, like the Earth. Wissenschaftler could also see canals that look similar to such a long time back cut out by streams and rivers. Past many years, we have seen by Mars four robotic rovers, or vehicles. In February 2021, NASA’s 5th rover on Mars, Perseverance, which landed on Planet Mars. In this article, we have jotted down the details about the rovers that were sent to Mars.

Sojourner Rover

Sojourner is indeed a rover who landed at Ares Vallis on Mars in 1997 and took numerous pictures.

Scientists from NASA did quite something awesome in 1997. They used a little wheeled robot for the very first time to research Mars’ surface. The robotic explorer, a rover named Sojourner. The scale of the microwave oven was approximate. However, several valuable new knowledge was shared with scientists.

On his path to Mars, Sojourner was not alone. He went through the landscape of a spacecraft. The lander was built like that of an airbag pyramid. The airbags contributed to the secure, fast landing of the lander. The pyramid shape contributed to the right-hand turn of the lander and of the rover regardless of how it landed. After the lander hit Mars, a screen opened, and Sojourner started exploring.

The rover was exploring a Mars area near its Ares Vallis landing site. This place was of interest to scientists because it appeared like an ancient flood site. The flowing flood water might have brought several rocks and dirt to one spot. This means that without going far, the rover can examine several different types of rocks.

The region had also been liked by engineers because Sojourner seemed to land like such a comfortable flat.

Sojourner used his camera to take photos of the Martian landscape when driving short distances. It returned over 550 Red Planet images. The rover used tools to research the fabric of surrounding martian rocks and soil. The lander also gathered wind as well as weather data on Mars.

Mars looks dry, cold & rocky from a distance. But the photographs and information of Sojourner tell a very different story. We heard that Mars was a colder, wetter location a long time ago.

Spirit & Opportunity Rovers

Spirit & Opportunity are twin rovers that have been made to learn so much about Mars earth.

NASA decided to send many rivers to know about Mars following the success of the sojourner rover. Thus two rovers were sent to the Red Planet in 2003. Spirit as well as Opportunity were called the rovers. The Mars Exploration Rover missions were conducted collectively.

As twins were rendered the Spirit & Opportunity. Both of them used the same scientific tools. And every golf cart is about the same size.

There’s life on Earth, in which there is water. Spirit and chance have been sent to Mars to obtain further insights into the water past there and would find out whether the Red Planet might have sustained life. In order to do this, researchers sent the two rovers to two separate landing places. On the other side of the globe, the rovers landed.

An area named Gusev Crater was known as Spirit. Speaking of the craters long ago, the scientists decided to investigate them. Scientists assumed that many big rivers flowed into Gusev Crater from pictures taken from satellites.

Opportunity landed in Meridiani Planum but on the other side of Mars. It was good because the rover could land in a flat, secure place. In addition, satellite studies around Mars have shown it could include a mineral called gray hematitis. Gray dermatitis is often found in water on Earth.

Spirit took with his camera many of Mars’ images on his trip. They were the first color pictures of another planet captured by a rover. Spirit also found traces of past water, geothermal or volcanic activities. It has been exploring locations that were hot springs millions of years ago.

Opportunity did not take color pictures of the Martian landscape to be overwhelmed by its twin. He also found proof of water.

Chance studied mineral layers in the rock near their landing place. Opportunity Proof from its collection showed that its landing used to be a salty sea shoreline.

Scientists have learnt from the rocks that Spirit and Opportunity researched that water on Mars may have been much like water on earth. Once upon a time, Mars had surface lakes and rivers. As that of the earth, water was under the ground, and water vapor also existed in the atmosphere.

Curiosity Rover

Curiosity is indeed a rover that was sent to Mars to decide if the Red Planet has the right survival conditions.

There have been living creatures on Earth in which there is water. We realize that even a long time ago, Mars had water. But did it have other requirements for life?

NASA sent the rover Curiosity to Mars to find out these details. Curiosity is another planet’s biggest robot ever to land. The scale of an SUV is the approximate size of the rover.

Since Curiosity is just so big, the wheels are also larger than the previous rovers. It rolls over rocks and sand without being trapped. But it still flies just around 660 feet even on a long day of driving.

In Gale Crater, Curiosity landed. This is a rare crater because it is in the center of a high mountain. There’s a lot of rock on the peak. Each stratum consists of various minerals from various periods of time. These minerals could tell scientists about Mars’s water history.

The rover uses several analytical tools to research the Gale Crater rocks. Curiosity made a crater on a rock at the bottom of a lake which was mud. One of his other instruments examined rock powder. This knowledge allowed scientists to discover that the Gale crater had ancient life-based ingredients.

Scientists sent Curiosity to Mars, too—including radiation—to measure a ton. Radiation is a kind of sun-borne energy. It moves in powerful waves, which can damage livelihoods. Curiosity has discovered that Mars has heavy, hazardous radiation levels. For human explorers, NASA can use radiation data from Curiosity to plan safer missions.

Curiosity took the Red Planet with 17 cameras—more than any rover. It takes pictures of its path using some of its cameras. Cameras also serve as the eyes of Curiosity to enable it to detect and avoid the threat.

Just at the end of its 7-foot robotic arm, including some of the cameras of Curiosity, also functions as some kind of “selfie stick.” The camera can be kept two meters away, and that can take a selfie to return to Earth.

Perseverance Rover

The rover that landed on Mars on February 18, 2021, is perseverance. It studies a Mars area known as the Crater of Jezero. This rover answers several questions regarding the Red Planet and looks for evidence of past microbial existence.

Rovers on Mars gathered waterproof and some of the blocks of chemical life. Researchers believe that life on Mars may have existed a long time ago. If there had been living creatures, they probably were smaller teenagers, somehow like bacteria on earth. But did life ever begin on Mars?

This question is being answered by the Mars 2020 mission. A rover close to Curiosity was sent by the team to explore the rocks, soil, and the air on Mars. The Perseverance rover, like Curiosity, is indeed a small SUV in size. The new rover does have a different objective and different tools. He’ll seek signs of past life on Mars directly.

The new rover would also test a natural resource which will help prepare a human mission to Mars.

Mars’ atmosphere has mostly been made of carbon dioxide gas. But so many living things have to breathe oxygen. When a man goes to Mars, he has to carry a great amount of oxygen. There is indeed not a lot of room for liquid oxygen in the spacecraft.

The rover would test a procedure in the Martian atmosphere to extract oxygen from the air. It will support NASA’s preparations to send human astronauts one day to explore Mars.

Perseverance arrived in the Jezero Crater region of Mars. That is a very ancient area of Mars and could have been the site of an old river delta for scientists. This crater is fascinating. The rocks in this area could teach us more about the Red Planet’s origins and might have preserved signatures of Mars’ past existence.

On 30 July 2020, the Perseverance rover was launched from Earth as well as on 18 February 2021, it appeared secured. 

So these were the five rovers that were sent to Mars for research.

Read More

Things to Know about Perseverance Rover on Mars

he Mars 2020 rover of NASA’s Perseverance is neighbors its new planetary destination, with just around 50 million miles left around its 293-million-kilometer voyage. The spacecraft has commenced its journey towards the Red Planet. Perseverance will flash through the Martian atmosphere in 43 days, February 18, 2021, at approximately 12100 mph (19500 kph) and will reach the surface around seven minutes later.

Fernando Abilleira, NASA Jet Propelling Laboratory’s South California deputy project manager, stated, “We are working on our last modifications in order to make it perfectly suitable for the landing of perseverance during one of the most interesting sites on Mars.” “To place the wheels in Martian mud, the team cannot hesitate.”

Designed and operated by JPL for NASA, Perseverance would be accompanying another rover as well as a lander work on Mars, with many other orbiters throughout the skies above. What keeps this six-wheeled robot different from others? In this article, we will have jotted down some of the interesting information about the Perseverance Rover. So read and find out.

Perseverance Rover will Search for Ancient Life on Mars

Whereas the surface of Mars is currently a frozen desert, scientists through previous NASA projects also discovered that once the Red Planet had surface running water and warmer surroundings that would have allowed microbial life.

“We need the perseverance to support us to address the very next logical question: are there any indications that mars have been microbial in the past?” says Deputy Project Scientist K. Stack Morgan. “The much more advanced robotics scientist to be sent to Mars is this challenging target.”

Perseverance brings a new range of advanced scientific instruments to address this problem, which is vital to astrobiology. 2 of them are relevant in the quest for potential past life signals: SHERLOC, which is capable of detecting organic materials as well as minerals, & PIXL that outlines the chemical compositions of sediment and rocks. Two of them are especially important for scanning the possible signs of its past life. Two are the following: The instruments would enable scientists to examine these characteristics in more information than just about any Mars rover has previously achieved.

Perseverance can also use a few tools to collect scientific data from afar: Cameras from Mastcam-Z are able to zoom on rock structures from though as far as the field of soccer; whereas SuperCam uses laser technology for zap rock plus a rag to investigate their structure in the steam that results from this. In order to test underground geological structures, RIMFAX (short for the Mars’ Subsurface Experiment Radar Imager) would utilize radar waves.

Perseverance Rover will land on the High Potential Place where it will search for Microbial Life Signs

Areas of interest to scientists could be difficult to find. The spacecraft could securely tap into an interesting place such as Jezero Crater, the 28-mile broad basin with steep cliffs, sand dunes as well as boulder fields, thanks to new techniques that enable Perseverance to aim its landing site more precisely and to prevent landing danger.

There was a river flowing into the water body about just the Lake Tahoe size as much as 3.5 milliards years ago, depositing sediment in such a fan form known as just a delta. This ancient lake deposit and river delta, the Perseverance science team claims, may have accumulated and conserved organic molecules as well as other possible microbial life signs. 

It will also Collect Data Regarding Mars Climate and Geology

The background is everything. Martian orbiters collected photographs and data of Jezero Crater at approximately 200 miles, but it is essential to find indications of ancient times, mostly on the floor. A rover such as Perseverance is required.

Understanding Mars’ past conditions, mostly on climate, and reading its rock-embedded geological records will provide scientists a better understanding of how the Earth was still in its past. The geology and atmosphere of the Red Planet may also create an insight into why Mars and Earth finished so differently, despite some initial resemblances.

It is the First Step Towards Mars round trip

The check of past life on Mars has a huge burden of evidence. Perseverance rover is the very first rover that carries a sample cache system to Planet Mars to collect promising materials for a potential mission to return back to Earth.

The drill would cut the intact cores of rock that have been of a size of even a chalk piece and insert them into sample tubes, which it stores, before the rover arrives at a suitable spot in March, instead of pulverizing the rock like the drills are done in NASA’s Curiosity rover. The rover might also send the sample to the lander, which forms part of NASA, as well as ESA’s planned market sample return operations.

When the samples from Mars are already on Planet Earth, we could indeed look into them with too wide and complicated instruments to transfer to Mars, which provide much more details than one of the most advanced rovers might have had.

Perseverance Rover carries Technology and Instruments that will Assist in the Human Mission to Mars and Moon

Terrain-relative navigation is one of the future-oriented technologies for this project. As an element of the landing system of the spacecraft, the landing spacecraft is able to easily and autonomously understand and adjust the trajectory of their position out over the Mars surface.

Perseverance will be more autonomous on the Mars surface, and with less guidance from engineers on Earth, than just about any other rovers, like smart driving, which will enable the company to incorporate more Earth for day activities. This quick transversal capability would improve the efficiency of many other vehicles of Mars, Moon, as well as other astronomical bodies.

Perseverance also carries out a technology trial called MOXIE, which will obtain oxygen from the Mars CO2 atmosphere. It will show a way in which future explorers will generate both rockets and breathing oxygen.

The MEDLI2 package is the new generation variant of what was on the Science Laboratory Project of Mars delivered by this Curiosity rover. In contrast, the MEDA suite collects data about this product. Two other instruments would help the technicians design systems for future human explorers to land & live on Mars.

The Ingenuity Mars Helicopter is, however, powered by Perseverance. Ingenuity would make the first powered, operated aircraft flight to another planet as a technology experiment separately from the science mission of the rover. With good results through its demonstration window 30 Martian-day data, the Red Planet’s potential exploration – such as by astronauts – can be helped by the addition of a new aerial dimension.

Final Words

So this was all about Perseverance Rover that you need to know about. It can be concluded that the Perseverance rover is a significant step towards the human mission to Mars.

Read More

To facts About Hubble Telescope and How Does it Work

About Hubble Telescope

The space telescope Hubble is a giant space telescope. In 1990, NASA started Hubble. Hubble is indeed long as a giant school bus. Two adult elephants are weighed. Hubble is only around 5 miles per second traveling around Earth. It is just as fast as its 10-minute drive from the US East Coast to the West Coast.

They were facing Hubble into the vacuum. It photographs stars, planets, and galaxies. Hubble saw the birth of stars. He saw galaxies a trillion of kilometers from here. Hubble saw comet fragments fall over Jupiter in the gasses.

Scientists learned many things from Hubble’s images regarding space. The photos captured by the Hubble telescope were indeed stunning.

Difference Between Hubble Telescope and Other Telescope

It’s also called its atmosphere, the combination of gasses around the earth. The atmosphere of the earth shifts and blocks some of the light coming out of space. Hubble’s high over Earth, and the atmosphere moves around or orbits. Therefore, Hubble is better placed to see space than Earth telescopes. Hubble doesn’t look like a telescope with your eye. A digital camera is used in Hubble. It was like a mobile phone taking pictures. Hubble then utilizes radio waves to transmit the images back to Earth via the air.

Origin of Name Hubble

Hubble is named after the astronomer Edwin Hubble. He’s been an astronomer. An astronomer is also an expert in stars, planets, and space. In the early 1900s, Edwin Hubble made major universe observations.

Use of Hubble Telescope

Hubble has provided scientists with information regarding our solar system. The telescope is monitoring planets and comets. Hubble also found moons that were not seen before around Pluto. The telescope allowed researchers to understand the formation of galaxies and planets. There are thousands of stars in the galaxy. One of the farthest galaxies ever seen in this image is dubbed “Hubble Ultra Deep Field.” Hubble photos help scientists learn about the world as a whole. Hubble images lead scientists to believe that the universe is about 14 billion years old.

Hubble’s got black holes spotted. In and of them, black holes suck. And Hubble helps scientists learn so much about explosions as big stars are burning down.

Hubble Telescope Future

Astronauts flew mostly on the space shuttle to Hubble in 2009. It was the fifth time Hubble was remedied by astronauts. They have put the telescope with new parts as well as cameras. It works very well, therefore. Hubble won’t be updated. Hubble reached the age of 30 in 2020. Then it takes lovely photos of artifacts.

Some other space telescopes are designed by NASA. The space telescope is named James Webb. It’s going to be larger than Hubble. As Hubble would, Webb won’t orbit Earth. But on the other side of the moon, Webb is going to orbit the sun. A different light than the light Hubble sees can be seen on the Webb telescope. Webb helps NASA to see the world even further.

Facts about Hubble Telescope

Named after the famous Astronomer

Edwin Hubble, an American astronomer whose discoveries have allowed scientists to extend their view of the universe also to include galaxies outside our own space telescope, took his name. In 1923, working only at Mount Wilson Observatory, Hubble determined whether Andromeda, however a nebula, was indeed a different galaxy centuries away from our Milky Way. In 1929, he made another pioneering discovery by helping to quash the idea of a ‘static universe’, discovering evidence that galaxies constantly travel away from each other. Hubble died in 1953, but so many of his ideas have since been tested and finished by the telescope that carries his name.

Took Decades to be Fully Made

The early beginnings of Hubble date back to 1946, upwards of 10 years prior to the establishment of NASA. This was the year that Lyman Spitzer Jr., an astrophysicist, published an influential article on the merits of even a space observatory. He said that a lifelong orbital telescope could see the earth’s atmosphere in unimpeded heavens, which might blur images. Spitzer subsequently played a key role in creating the four unknown satellites which NASA launched between 1966 and 1972, Orbital Astronomical Observatories, as well as he untiringly lobbied the government to construct a larger and better space telescope. However, the large costs of the project proved a big stumbling block, so the US Congress did not fully finance Hubble until 1977.

Launch of Telescope was Delayed because of the Challenger disaster

In 1986 just after the Columbia space shuttle crashed mostly during an upsurge, killing seven astronauts, the nascent Hubble program suffered a huge blow. NASA has grounded its space fleet following the disaster and has left the shuttle-dependent shuttle Hubble without orbiting it. Wissenschaftler used the delay by improving the sensitivity of the devices of the telescope and by refining its floor management software, but the additional years of service and storage in such a high-tech cleanroom have been costly. The mission was seven years behind schedule and much more than 1 billion USD above budget when Hubble eventually left in 1990 when its space shuttle Discovery was put into its freight bay.

Faulty Mirror was the Reason for Almost Shut Down of Telescope

When scientists of NASA saw Hubble’s first pictures in 1990, they found its main focal mirror to really be cleverly polished. The “spherical aberration,” less than a quarter the width of even a strand of human hair, became minuscule but sufficient to blur a large number of telescope images. Throughout the months that followed, it has become a national joke and was even marked with a “1.5 trillion USD Blunder” by a newspaper cover. NASA’s redemption was to wait till December 1993, whenever a spaceship crew set up a COSTAR instrument, using small mirrors to compensate for the crash. Hubble’s “space glasses” managed to rectify his fluffy vision, and soon it started to relay detailed shots of the cosmos in a jaw-dropping detail.

Final Words

This was all about the Hubble Telescope and the working of the Telescope that you need to know about.

Read More

Types of Smart Sensors Capable of Improving Agriculture

Agriculture today faces a major challenge to meet the needs of the world population as a whole without depleting the available resources mostly on the planet. Technology and creativity are undoubtedly the much more valued aliens, though they can contribute to more productive agricultural holdings and much more sustainable production systems.

The creation of sensors able to accurately examine the circumstances of the soil and to provide farmers with information could be of great assistance in this regard.

Now we will present you to four types of sensors that you might not be informed of for agricultural purposes.

Iot and Agriculture

Sensors in agricultural operations have been introduced for a long time. However, the issue with the conventional sensor technology approach was that we could not obtain live sensor data. We could then use the sensors to log the information into their attached memory.

Introducing industrial IoT in agriculture allows the use of far more sophisticated sensors. A cellular-satellite network now connects the sensors towards the cloud. This enables us to know the sensor data in real-time and make successful decision-making.

IoT apps have helped farmers track water tank levels in real-time in agriculture to improve efficiency in the irrigation process. In every phase of farming, the progress of IoT technology has resulted in using sensors, such as how long and how much energy a seed takes for a fully grown plant.

The Agriculture Internet of Things has emerged as the second green revolutionary wave. The advantages of IoT adaptation for farmers are double. It helped farmers to reduce cost and increase yields while enhancing the decision-making process for farmers with accurate information.

IoT Application in Agriculture Sector

Smart agriculture is a high-tech, effective framework for sustainable agriculture and food production. That is an application in agriculture of the joint implementation of connected devices and emerging technologies. Intelligent farming mainly depends on IoT to remove the need for farmers’ and farmers’ physical work and therefore to increase production in any way possible.

The Internet of Things has brought significant benefits such as effective water usage, input optimization, and plenty more with recent farming trends depending on agriculture. The enormous advantages have changed, and in recent days, agriculture has become revolutionary.

Smart Farming, based on IoT, enhances the whole system of agriculture by real-time field monitoring. The web of agricultural subjects not just to save farmers time and also minimized the extravagant use of resources like water and electricity by means of sensors and interconnectivity. It monitors different variables such as humidity, soil, temperatures, etc., and provides a direct observation in real-time.

Sensor 1

A sensor that can search from the sky will be the first in the chart of sensors in agriculture.

There are many physical mechanisms in nature that are not seen in plain sight by our restricted human eyes. Parrot launched Sequoia, a mini multispectral sensor capable of tracking the nuances that our eyes cannot notice in the ground, to aid farmers in evaluating the conditions of their field.

Sequoia is a device that can take aerial pictures attached to a drone. It has a 16 MP camera as well as a GPS solar sensor. It consists of two elements. Bathing from the electromagnetic spectrum to ultraviolet or infrared rays that is impossible for people is both multi-spectral and, in other terms, registered. This configuration enables the field to be collected as well, as the sun behavior is compared to the crop state in real-time. With these criteria in mind, farmers may classify drier regions, nutrient-free areas, or plagues.

Sensor 2

The intelligent agricultural sensors are followed by one that monitors cows’ status.

One of the hardest jobs in the primary sector seems to be the management of a dairy farm. Farmers must oversee the production of cows from dusk to late at night to ensure the quality of the milk. However, these habits can now adjust, and while they may proceed to check their stocks’ welfare in the morning, they can also easily make it via their mobile, thanks to the Internet of Things-based HealthyCow solution introduced by SCR Dairy.

We are talking about a collar with moving sensors and microphones which can track the behavior as well as the time of the cows. Whenever the activity increases, for example, the animal’s heat or decreases, that can imply some other kind of health problem, the device sends notifications to the farmer’s smartphone.

This knowledge helps the farmer to improve milk production, decrease the risk of birth or track the health of the cows, thereby saving valuable time and preventing trips to just the facilities in small hours.

Sensor 3

One sensor which senses the atmosphere is another used in the agriculture sector.

Kilimo Salama is a Kenya-based project aimed at reducing the collateral effects of inclement weather on farming throughout the area based on the principle of “healthy agriculture.” The fields are monitored by a linked weather station. Therefore, during times of drought or floods, small farmers would have better access to harvest insurance. This project creates a stable network and enhances an investment in agriculture.

We have already witnessed how technological advances enable growers to become knowledgeable of soil anatomy. In that regard, the pH level of just about any given field can be measured, or the clay seems to be the dominant factor in it can be measured by remote sensors.

This knowledge is extremely important if we are to know how much water drainage or acidity the soil needs to adapt to irrigation as well as the most useful cultivation type.

Sensor 4

Sensors of agriculture can be of considerable help not just in seed tracking or maintenance harvesting but also for seed collection storage. This is the case for BeanIoT, bean-like thumb-like plastic products thrown into grain silos to track its situation while it is processed.

How do they do that? The inbuilt moisture sensors, electronic compass, gyroscopes, and Bluetooth are provided for each plastic bean. The measurements of the temperature, air quality, humidity, gas, altitude, and grain within the silo could be achieved thanks to all of these components. BeanIoT sensors send a feed to a smartphone if irregular values are detected. They stay sleeping to conserve energy the rest of the time. They charge wirelessly as well as the battery lasts 14 months, as per their maker.

Final Words

So these were some of the most important sensors that are very effective in the field of Agriculture.

Read More

Why the Future Looks Bright for Solar Energy  

The solar industry has come a long way over the last decade. The global market in 2010 was very limited and reliant on subsidies in countries like Italy, Germany, and the UK. The widespread use of solar power has faced a variety of obstacles in recent years. For these ambitions, fast technological advancements were necessary with aggressive price goals that set high bars. Nevertheless, the solar industry excellently and solar systems have reached record levels in 2020.

Only at the end of 2019, global grid-connected solar power hit 580.1 GW, along with 3.4 GW off-grid pV as per the International Renewable Energy Agency. Even by the end of 2019, the US alone had installed over 2000000 PV systems with a total solar capacity of approximately 71300 MW as well as a capacity of over 100 TWh.

The global solar industry is predicting a 14 percent increase in 2020 compared with its global solar capacity installed in 2019, as a report by IHS Markit published throughout early 2020. Throughout the year, they planned to install an additional 142 GW, seven times the total solar capacity installed in 2010. Of course, neither one of us knew that the entire world would be suffering from a pandemic in January when this was written. While a recent evaluation has shown that global renewable energy growth is being hurt by the Covid-19 crisis, it does not halt. In the US, rooftop facilities were affected; however, the solar market remained remarkably robust, and record facilities are still expected to reach in 2020.

Solar Energy Cost

In the last decade, solar costs have certainly plummeted as new technologies are promising to raise solar efficiency further cheaper, particularly in sunnier areas, where a new generation of electricity already has developed into the lowest cost. Since solar energy is readily available as well as renewable, Solar will become the largest source of electricity in much of the world by 2030. The solar industry is rapidly increasing before solar power becomes immutable as compared with fossil fuels, which would have a positive effect on the environment as well as climate change. Solar can be installed easily and fast and can be flexibly powered as anything just as small as just a watch or as big as a city. The adaptability of Solar means that over the next ten years there’s no excuse why the solar sector should not continue to expand.

There are concrete proposals for cost savings in the solar industry so that solar costs can be halved by 2030.

It is expected to continue to reduce costs and mount silicon solar cells in significant numbers. The US is expected by at least 700 percent that these cost reductions will increase solar power produced by 2050! In the meantime, research is ongoing on various designs to make solar cells more powerful and cheaper.

Solar Cells Future

Higher performance modules have already been designed today to generate 1.5 times higher power than current modules with tandem silicone cell technology.

A new design needs to be capable of capturing more light, transforming light energy more effectively into power, and building less than the current designs in such an effort to overcome existing solar cells. There really is no question that solar energy would be taken up by the energy manufacturers and customers if the energy they generate is equivalent or cheaper than any other non-renewable energy.

One choice for the capture of more light from solar cells is to install solar cell electronics which monitor the sun as it passes through the sky by day. If the solar cell still points to the sun, far more photons strike it than if it just points at midday towards the sun. The cost of developing electronics that can achieve this precisely and reliably for many decades is currently prohibitive. Its use of mirrors to light a smaller and thus less expensive solar cell is also an alternative to having the solar cell itself move.

The efficiency of solar cells is yet another way to enhance the way they operate so that they can better turn sunlight into power. Solar cells with far more than just one layer of light collection material have shown themselves to absorb more photons than solar cells with a single layer. These cells are currently also too costly and hard to commercially use, but continuing research will allow the super-efficient cells one day to be implemented.

Production advances are all in the pipeline, which will reduce the volume of costly materials used to produce solar cells like silver and silicone. If we look into the future, alternatives to silicone are likely to emerge in our solar farms as well as rooftops to provide safe and sustainable energy sources.

The simple reduction of solar cell costs is an alternative to improving performance. Regardless of the fact that silicone manufacturing has decreased over the years, it still greatly raises the cost of solar cell installation. The price of materials is lower if thinner solar cells are used. These “thin-film solar cells” have used a material layer that only covers 2 to 8 micrometers in thickness, only about 1 percent of the amount used in the production of a conventional solar cell. These thin-film cells are, however, similar to cells with several layers that restrict their use, but research is ongoing.

Another breakthrough is the creation of bifacial modules that allow panels from both sides to collect solar energy. In addition, engineers continue to look for ways to further integrate solar energy into our homes, companies, and energy systems. This calls for better power electronics and more cost-effective emerging technology.

Sun Sets Down on the Fossil Fuels

A variety of different factors are driving the transition of energy supplies worldwide away from polluting sources like oil, coal, and gas. One aspect that drives this transition is political because the world is stepping up its efforts to reduce temperatures by less than 2 degrees Celsius in conformity with the 2015 Paris Agreement. Another significant factor is the economy because renewable energy costs have decreased considerably and have become competitive with many other energy sources. One-third factor behind improvements is market demand by increasingly introducing new technologies such as electric cars and solar photovoltaics.

Read More
  • 1
  • 2