These are the characters that have fully been introduced in The (Mainly) Accurate JSAB's AU!
Name: Azraq
Gender: Male, He/Them
Age: 25
Sexuality: Bi
Height: 6'0
Personality: Calm, doesn't talk much, takes care of others, rarely gets mad or upset, secretly very affectionate
The oldest of the heroes, was made from the Treeangle to protect Paradise. He's the leader of them
Name: Sol
Gender: Male, He/Him
Age: 23
Sexuality: Pansexual
Height: 6'3
Personality: Stubborn, tough acting, rough around the edges, but will show compassion and loosen up when it's neccesary
The second oldest of the heroes, also the strongest physically
Name: Xanthene
Gender: Gender Neutral, They/Them
Age: 21
Sexuality: Queer
Height: 5'5
Personality: Soft, sweet, shy, but also very tough secretly, takes care of themself mainly.
The 2nd youngest of the heroes, very quick and best at dodging
Name: Esme
Gender: Female, She/her
Age: 19
Sexuality: Lesbian
Height: 5'11
Personality: Sweet, kind, not afraid to get dirty, outgoing, but not an innocent bean, she knows when something's up.
The youngest of the four, also the quickest.
Name: Noreis
Gender: Male
Age: 48
Sexuality: Heteroflexible
Height: 6'0
Personality: He's very very kind, and emotional. But don't let that fool you, he's a very strong male who will do whatever it takes to protect those he loves.
The caretaker of Paradise, and the 4 heroes.
Name: Fresnel, but everyone just calls him Fresh
Gender: Male, he/him
Age: 45
Sexuality: Gay
Height: 5'10
Personality: Sweet, shy, anxious, playful whenever he's comfortable with others. He's a cat, so, he acts like one a lot-
The corrupted that tried to take over Paradise, though it wasn't purposely, has a lot of problems with controlling the corruption whenever people hurt or make him mad, which doesn't happen often
Name: Delmar
Gender: Male, he/him
Age: Old as the sea itself
Sexuality: Bi
Personality: Kind, scared of heights, very pirate acting, good with kids
Was made to help heroes through the world before there was a better connection to the islands
Name: Alya
Gender: Female, she/her
Age: old as the Sky
Sexuality: Straight
Personality: Playful, loves danger, very extra and loving
Was also made to help heroes get around, and rescue others from the sky.
Logic Gatekeeper
Name: Lutador
Gender: Male
Age: 32
Sexuality: Gay
Personality: Cold, untrusting, Rash, unprofessional, horrible habits.
Once he gets used to you, he becomes soft and sweet
➡️ Sewa Produksi Booth Pameran, Stage Melaminto, Partisi
➡️ Sewa Dekorasi Taman / Mini Garden
➡️ Vendor Instalasi Listrik
Ready Serve for Event :
➡️ Launching Product , Company / Family Gathering, Event, School Reunion Party, Birthday Party, Wedding Party, Music Show, ALL About EVENT & ENTERTAINMENTS.
Hallo, Wie gehts? Saya Dandi dari Freshnel Haji dan Umroh Cabang Kebumen siap untuk mengikuti training hebat selama 5 hari di Malang. Ya, agar menjadi profesor yang profesional di bidang ini (tour and travel). Sampai jumpa di Malang besok ya. Workshop 5 Days Grounded Business Coaching (GBC) 59 Led by Coach Dr. Fahmi Selasa - Sabtu, 10 - 14 Januari 2023 #salamgrounded #coachfahmi (at Malang Kota Dingin) https://www.instagram.com/p/CnJ3StuSsgQ/?igshid=NGJjMDIxMWI=
IP-MPLS
IMS
SIP-Protocol
MPLS-TE
VOIP
MPLS (Intro, Part1, Part2, Cisco Config)+Simulation/Configuration (Cisco, Mikrotik, Linux)
Voix sur IP Mobile avec IMS
Réaliser un cahier des charges pour Business Intelligence
Pannifier et Réaliser un Réseau Local (Câblage, Adressage, Sertissage, Brassage, Electricité, Uptime 24/24)
Quelques Applications du Mikrotik en Sécurité (IDS, Contrôle, etc)
Plannifier et Réaliser son Réseau MAN (Métropolitan Area Network) : Coordonnées GPS, Taille/Masse des Pylônes, Equipements Radio, Fréquences, Zones de Freshnel et Zones d'ombre
Concevoir et Déployer son Interco-VSAT
Concevoir et Mettre en place des VLAN (Routeur, Switch, Avec ou sans Trunk)
Concevoir un Plan de numérotation et paramétrer un PBX/PABX
Installer et configurer une Messagerie Propriétaire en OpenSource
Concevoir un plan stratégique
Rédiger un rapport d'exécution
Gestion des Projets (outils pratiques: Oracle Primavera, MS Project, PMBok)
Virtualisation des Serveurs avec des Hyperviseurs et Déploiement Virtuel de l'IMS et Mikrotik
Configuration et Déploiement d'une Téléphonie sur IP en WiFi dans un LAN en utilisant Linux.
Concentrated Solar Power Market is likely to reach US$ 69.7 Bn by the end of 2031
Concentrated Solar Power Market: Snapshot
The global concentrated solar power (CSP) market holds a huge opportunity to rise owing to the increasing implementation of heat storage systems as well as hybridization of concentrated solar power plants with traditional thermal plants. CSP technology is said to be immensely capital intensive in nature and it can be deployed at commercial scale without the requirement of support from financial and governmental institutions. The prominent players operating in the global CSP market are continuously flourishing due to the constantly rising energy demand and the growing concerns about clean energy within developing nations.
Are you a start-up willing to make it big in the business? Grab an exclusive PDF Brochure of this report :
The global CSP market stood at US$2.51 bn in 2013 and is poised to touch US$8.67 bn by 2020. The market is predicted to rise at a whopping 20.30% CAGR between 2014 and 2020. Factors such as the increasing awareness regarding global warming and the growing greenhouse gas emissions are driving the overall market for CSP. In addition, the increasing prices of traditional energy sources and the growing concerns on future supply of energy will further augment the development of the market for concentrated solar power. Furthermore, the incentives and support provided by government globally will further provide impetus to the development of the market in the coming years. Contrariwise, the soaring cost of electricity generation may come up as a roadblock in the growth of the global concentrated solar power market.
Parabolic Trough to Lead Concentrated Solar Power Market till 2020
In terms of product, the report segments the global CSP market into dish stirling, linear freshnel, solar tower, and parabolic trough. Of these, parabolic trough is the most matured technology in the market and is extensively utilized at commercial level for the generation of power. This technology held a leading position in the market in 2013 and is poised to rise at the swiftest growth rate between 2014 and 2020. The segment of tower and fresnel trailed parabolic trough, respectively. Of these, the tower technology is expanding at an exponential rate owing to the integration of technology with traditional thermal power plants, while the technology of dish sterling is employed for pilot projects and demonstration.
Europe Emerged as the Most Dominant Region in Global Concentrated Solar Power Market
On the basis of geography, the market is categorized into Europe, North America, Asia Pacific, and Rest of the World (RoW). Of these, on the basis of CSP installed capacity, Europe came up as the top producer of power globally within the CSP technology and the production in this region is predicted to expand in the coming years. Although, due to the economic slowdown within Europe, this growth of the market in Europe has experienced a gradual degradation within the installation process, still the growth of the market in this region will rise from 2014 to 2020. North America and Asia Pacific trail Europe in terms of production. On the other hand, the concentrated solar power (CSP) market is also predicted to grow in Asia Pacific in the coming years. The prime players within the market are focusing on investing within Asia Pacific and North America concentrated solar power markets.
The chief players dominant in the market are Concentrated Solar Power market include Abengoa Solar S.A., Ibereolica Group, GDF SUEZ, NextEra Energy Resources, LLC., and BrightSource Energy, Inc.
More Trending Report by Transparency Market Research –
Transparency Market Research is a global market intelligence company, providing global business information reports and services. Our exclusive blend of quantitative forecasting and trends analysis provides forward-looking insight for thousands of decision makers. Our experienced team of Analysts, Researchers, and Consultants, use proprietary data sources and various tools and techniques to gather, and analyse information. Now avail flexible Research Subscriptions, and access Research multi-format through downloadable databooks, infographics, charts, interactive playbook for data visualization and full reports through MarketNgage, the unified market intelligence engine. Sign Up for a 7 day free trial!
Contact
Rohit Bhisey
Transparency Market Research,
90 State Street, Suite 700,
Albany, NY 12207
Tel: +1-518-618-1030
USA – Canada Toll Free: 866-552-3453
Email: [email protected]
Website: https://www.transparencymarketresearch.com
Global Concentrated Solar Power Market Is Expanding At A Cagr 20.30% Between 2014 And 2020
Concentrated Solar Power Market: Snapshot
The global concentrated solar power (CSP) market holds a huge opportunity to rise owing to the increasing implementation of heat storage systems as well as hybridization of concentrated solar power plants with traditional thermal plants. CSP technology is said to be immensely capital intensive in nature and it can be deployed at commercial scale without the requirement of support from financial and governmental institutions. The prominent players operating in the global CSP market are continuously flourishing due to the constantly rising energy demand and the growing concerns about clean energy within developing nations.
The global CSP market stood at US$2.51 bn in 2013 and is poised to touch US$8.67 bn by 2020. The market is predicted to rise at a whopping 20.30% CAGR between 2014 and 2020. Factors such as the increasing awareness regarding global warming and the growing greenhouse gas emissions are driving the overall market for CSP. In addition, the increasing prices of traditional energy sources and the growing concerns on future supply of energy will further augment the development of the market for concentrated solar power. Furthermore, the incentives and support provided by government globally will further provide impetus to the development of the market in the coming years. Contrariwise, the soaring cost of electricity generation may come up as a roadblock in the growth of the global concentrated solar power market.
Parabolic Trough to Lead Concentrated Solar Power Market till 2020
In terms of product, the report segments the global CSP market into dish stirling, linear freshnel, solar tower, and parabolic trough. Of these, parabolic trough is the most matured technology in the market and is extensively utilized at commercial level for the generation of power. This technology held a leading position in the market in 2013 and is poised to rise at the swiftest growth rate between 2014 and 2020. The segment of tower and fresnel trailed parabolic trough, respectively. Of these, the tower technology is expanding at an exponential rate owing to the integration of technology with traditional thermal power plants, while the technology of dish sterling is employed for pilot projects and demonstration.
Europe Emerged as the Most Dominant Region in Global Concentrated Solar Power Market
On the basis of geography, the market is categorized into Europe, North America, Asia Pacific, and Rest of the World (RoW). Of these, on the basis of CSP installed capacity, Europe came up as the top producer of power globally within the CSP technology and the production in this region is predicted to expand in the coming years. Although, due to the economic slowdown within Europe, this growth of the market in Europe has experienced a gradual degradation within the installation process, still the growth of the market in this region will rise from 2014 to 2020. North America and Asia Pacific trail Europe in terms of production. On the other hand, the concentrated solar power (CSP) market is also predicted to grow in Asia Pacific in the coming years. The prime players within the market are focusing on investing within Asia Pacific and North America concentrated solar power markets.
About Us
Transparency Market Research (TMR) is a global market intelligence company providing business information reports and services. The company’s exclusive blend of quantitative forecasting and trend analysis provides forward-looking insight for thousands of decision makers. TMR’s experienced team of analysts, researchers, and consultants use proprietary data sources and various tools and techniques to gather and analyze information.
TMR’s data repository is continuously updated and revised by a team of research experts so that it always reflects the latest trends and information. With extensive research and analysis capabilities, Transparency Market Research employs rigorous primary and secondary research techniques to develop distinctive data sets and research material for business reports.
Contact
Mr. Rohit Bhisey
90 State Street, Suite 700
Albany, NY 12207
Tel: +1-518-618-1030
USA - Canada Toll Free: 866-552-3453
Email: [email protected]
Website: https://www.transparencymarketresearch.com
The Navy's version of the F-35 is getting closer to combat readiness
The Navy's stealthy carrier-launched F-35C is now moving much closer to combat readiness after conducting "carrier qualification" exercises from the USS Carl Vinson off the coast of Southern Calif., service officials said.
The qualifications are designed to prepare pilots for the rigors of carrier air wing combat missions and further prepare the aircraft and its weapons systems for operational service.
Carl Vinson air operations officer Cmdr. Joshua Hammond said carrier qualifications are important because they allow Carl Vinson to practice launching and recovering aircraft while helping qualify new pilots, according to a Navy statement from aboard the Carl Vinson.
"Being at sea for FRS (fleet replacement squadron) CQ gives us practice at what we do on deployment: launching and recovering aircraft," Hammond. "We can't always be underway with Carrier Air Wing, so these operations help us stay sharp and hone our craft while helping new pilots gain proficiency." (Full Navy statement HERE)
Alongside the carrier qualifications on board the Carl Vinson, the Navy was also conducting testing of a special take-off mechanism known as the "hold back bar." This is a technology which helps determine key elements of a carrier catapult launch such as the needed amount of thrust, speed and steadiness determined for a particular air frame.
"The reduced setting of repeatable release hold back bar performed well both test and fleet are pleased with the progress made in reducing the force of the oscillation seen during catapult shots. The fleet will continue the assessment of the bar," Joe DellaVedova, spokesman for the Joint Program Office, JSF, told Scout Warrior.
Weapons preparation also continues to progress as part of the Navy's push to bring the F-35C into combat. The F-35C has now been armed with a large, 5,000-pound load of weapons as part of a strategy to prepare the emerging aircraft for air-to-air engagements and air-to-ground attacks against enemy air defenses.
During developmental testing on the USS George Washington in the Atlantic Ocean last year, the F-35C took off with one GBU-31, two AIM-120s and four GBU-12s along with its 25mm gun mounted in a pod beneath the aircraft, Navy officials told Scout Warrior.
Being engineered for a carrier, the F-35C's 51-foot wingspan is larger than the Air Force's F-35A and Marine Corps' F-35B short take-off-and-landing variants. The fighter is configured to carry 19,000 pounds of fuel and 18,000 pounds of weapons.
Reuters
An empty F-35C weighs approximately 3,500 pounds. It can fire two AIM-120 air-to-air missiles and two 2,000-pound Joint Direct Attack Munitions. The F-35C can reach speeds up to Mach 1.6 and travel more than 1,200 nautical miles.
The F-35C is also able to fire the AIM-9X along with other weapons; in the future it will have an ability to drop a Small Diameter Bomb II - a high-tech weapon now in development able to track and destroy moving targets from great distances using a tri-mode seeker. The SDB II uses millimeter wave, laser and infrared guidance technology.
Previous testing of the aircraft involved catapulting the stealth fighter off the aircraft carrier runway deck with a much lighter load of weapons; the full complement of armaments for the F-35C is designed to maximize its potential mission envelope and allow it to drop laser and GPS-guided precision Joint Direct Attack Munitions, use air-to-air weapons in the event that the aircraft needs to dogfight or destroy enemy drones and fire a 25mm gun for, among other things, the prospect of close-air support or surface attacks against enemy ships.
Previous DT-III testing also evaluated new high-tech adjustments to the aircraft’s Helmet Mounted Display, or HMD. The sensors in the pilot’s Generation 3 HMD have been improved with new firmware to better enable pilots to target enemies and perform missions at night, Navy developers added.
Assessments of the F-35C, designed to bring the aircraft into operational service by 2018, have also included efforts to refine a precision-landing technology called Joint Precision Approach & Landing Systems, or JPALs.
JPALS, slated to be operational by 2019, works with the GPS satellite navigation system to provide accurate, reliable and high-integrity guidance for fixed- and rotary-wing aircraft, Navy statements said.
Also, Navy information described JPALS as a system featuring anti-jam protection to ensure mission continuity in hostile environments.
“JPALS is a differential GPS that will provide an adverse weather precision approach and landing capability,” a Navy statement said.
Prior to carrier-deck take-offs by two F-35Cs aboard the USS George Washington, the Navy extensively tested take-off and landing operations at two land facilities, Lakehurst, N.J. and Patuxent River, Md.
With a broad wingspan, reinforced landing gear, ruggedized structures and durable coatings, the Navy's first of its kind F-35C is engineered for harsh shipboard conditions while avionics equip the pilot with real-time, spherical access to battlespace information and commanders at sea, in the air and on the ground with an instantaneous, high-fidelity single picture view of ongoing operations.
US Navy Photo
The Navy F-35C is the services' first-ever stealthy carrier-launched multi-role attack fighter, engineered to perform a wider range of missions than any carrier aircraft has done before.
The emergence of a first-of-its kind carrier-launched stealth fighter is intended to give the Navy more combat attack flexibility and attack sophisticated enemy air defenses or fortified targets from a sea-based carrier.
Such an ability can allow a maneuvering carrier to hold targets at risk from closer proximity if land-bases are far from the combat vicinity.
The new stealth Joint Strike Fighter will join the carrier air wing and fly alongside the F/A-18 Super Hornet, E2D Hawkeye surveillance planes and other aircraft. Over the next five years, the Navy plans to acquire as many as 60 or more of the new fighters, Navy officials have told Scout Warrior.
As it prepares for F-35C deployment, the Navy anticipates that the new aircraft will deploy to any one of a number of pressing hot-spots.
The F-35C is engineered with a new technology called Delta Flight Path which helps pilot land on a carrier deck more easily.
Test pilots and engineers credited the F-35C's Delta Flight Path technology with significantly reducing pilot workload during the approach to the carrier, increasing safety margins during carrier approaches and reducing touchdown dispersion.
Carrier landing is never easy as pilots must account for the wind-speed, atmospheric conditions and speed of the ship. Pilots follow a yellow light on the flight deck of the ship called the Freshnel Lens to help the trajectory of the approach, called their glide slope, Navy experts have explained to Scout Warrior.
The Fresnel Lens includes a vertical row of yellow lights between two horizontal rows of green lights. Using a series of lights and mirrors, a pilot's approach is reflected by the position of the yellow light in relation to the green lights above and below, displaying whether the aircraft is on the right "center line" or "glide slope," Navy pilots have explained.
Reuters
If a pilot is on glide slope, he will see a centered amber ball in between the horizontal green lights; If he goes high on glide slope, he will see the ball rise above the green lights. If he goes below glide slope, he will see the ball fall below the green lights.
Also, in order to properly align for an approach to the flight deck -- about three-quarters of a mile away, pilots make a sharp, descending 180-degree turn to slow the aircraft and begin descending from about 600 feet, Take-off is also intense; Aircraft are able to reach speeds up to 160 knots in about 2.5 seconds as a result of being thrust forward by the steam catapult.
The steam catapult generates 520 PSI (pounds per square inch) of pressure pushing pistons forward. The pistons push cylinders connected to a shuttle attached to a launch bar, which pulls the aircraft forward, Navy officials explained.
Upon landing, the aircraft catches an arresting cable four to six inches above the deck of the carrier; hydraulic fluid controls the pace of deceleration for the aircraft, Navy pilots explained.
A hook lowers from the back end of the F-35C aircraft, designed to catch the cable and slow down the plane. In order to maintain its stealth configuration, the aircraft’s hook is internal to the airframe.
On all the legacy systems, the tail hook sits up underneath the engine externally. Upon landing, three doors open up and allow the tail hook to fall down, Navy pilots said.
The aircraft also needs to be able to withstand what’s called a “free flight,” a situation where the pilot receives a late wave off to keep flying after the hook on the airplane has already connected with the wire, pilots added.
The aircraft has gone through several rounds of testing to advance what’s called carrier integration and carrier qualification – an effort to seamlessly integrate the new aircraft into the carrier platform and carrier air wing, service officials have explained.
Courtesy of Lockheed Martin
Stealthy F-35C carrier aircraft, having a lower radar signature, are expected to deliver advanced attack and air-to-air and intelligence, surveillance and reconnaissance platforms, able to perform a wider range of operations without being detected by an enemy.
he aircraft is part of a broader Navy strategy to be well equipped in the event that it needs to engage in massive, major-power war against a near-peer adversary such as Russia and China known to have advanced air-defenses and air-to-air platforms.
The F-35C — the Navy's and Marine Corps' carrier-suitable variant (CV) – is designed to combined unprecedented at-sea stealth with fighter speed and agility, fused targeting, cutting-edge avionics, advanced jamming, network-enabled operations and advanced sustainment.
In a previously released document described as the "Naval Aviation Vision," the F-35C is described as being engineered with reinforced landing gear and durable coatings to allow the F-35C to withstand harsh shipboard conditions while delivering a lethal combination of fighter capabilities to the fleet.
In recent years, the F-35 has been completing stages of Developmental Testing III, or DT-III, as the third of three at-sea test phases for the F-35C. Naval aircraft are slated to go through DT-I, -II and -III test phases in order to ensure the development of aircraft meets specifications and properly identifies mission critical issues sufficiently early in the test phase.
Two F-35C Lightning II carrier variants conducted their first arrested landings aboard USS Dwight D. Eisenhower (CVN 69) off the coast of the eastern United States on Oct. 2, 2015.
By 2025, the Navy's aircraft carrier-based air wings will consist of a mix of F-35C, F/A-18E/F Super Hornets, EA-18G Growlers electronic attack aircraft, E-2D Hawkeye battle management and control aircraft, MH-60R/S helicopters and Carrier Onboard Delivery logistics aircraft such as the emerging Navy Osprey tiltrotor aircraft variant.
Lockheed Martin is the aircraft contractor and Pratt & Whitney is the engine contractor. Several reports, including one from “War is Boring,” cite the F-35C cost per plane as more than $337 million.
NOW WATCH: This is how pilots train to fly the F-35 — America’s most expensive fighter jet
Concentrated Solar Power Market is likely to reach US$ 69.7 Bn by the end of 2031
Concentrated Solar Power Market: Snapshot
The global concentrated solar power (CSP) market holds a huge opportunity to rise owing to the increasing implementation of heat storage systems as well as hybridization of concentrated solar power plants with traditional thermal plants. CSP technology is said to be immensely capital intensive in nature and it can be deployed at commercial scale without the requirement of support from financial and governmental institutions. The prominent players operating in the global CSP market are continuously flourishing due to the constantly rising energy demand and the growing concerns about clean energy within developing nations.
Are you a start-up willing to make it big in the business? Grab an exclusive PDF Brochure of this report :
The global CSP market stood at US$2.51 bn in 2013 and is poised to touch US$8.67 bn by 2020. The market is predicted to rise at a whopping 20.30% CAGR between 2014 and 2020. Factors such as the increasing awareness regarding global warming and the growing greenhouse gas emissions are driving the overall market for CSP. In addition, the increasing prices of traditional energy sources and the growing concerns on future supply of energy will further augment the development of the market for concentrated solar power. Furthermore, the incentives and support provided by government globally will further provide impetus to the development of the market in the coming years. Contrariwise, the soaring cost of electricity generation may come up as a roadblock in the growth of the global concentrated solar power market.
Parabolic Trough to Lead Concentrated Solar Power Market till 2020
In terms of product, the report segments the global CSP market into dish stirling, linear freshnel, solar tower, and parabolic trough. Of these, parabolic trough is the most matured technology in the market and is extensively utilized at commercial level for the generation of power. This technology held a leading position in the market in 2013 and is poised to rise at the swiftest growth rate between 2014 and 2020. The segment of tower and fresnel trailed parabolic trough, respectively. Of these, the tower technology is expanding at an exponential rate owing to the integration of technology with traditional thermal power plants, while the technology of dish sterling is employed for pilot projects and demonstration.
Europe Emerged as the Most Dominant Region in Global Concentrated Solar Power Market
On the basis of geography, the market is categorized into Europe, North America, Asia Pacific, and Rest of the World (RoW). Of these, on the basis of CSP installed capacity, Europe came up as the top producer of power globally within the CSP technology and the production in this region is predicted to expand in the coming years. Although, due to the economic slowdown within Europe, this growth of the market in Europe has experienced a gradual degradation within the installation process, still the growth of the market in this region will rise from 2014 to 2020. North America and Asia Pacific trail Europe in terms of production. On the other hand, the concentrated solar power (CSP) market is also predicted to grow in Asia Pacific in the coming years. The prime players within the market are focusing on investing within Asia Pacific and North America concentrated solar power markets.
The chief players dominant in the market are Concentrated Solar Power market include Abengoa Solar S.A., Ibereolica Group, GDF SUEZ, NextEra Energy Resources, LLC., and BrightSource Energy, Inc.
More Trending Report by Transparency Market Research –
Transparency Market Research is a global market intelligence company, providing global business information reports and services. Our exclusive blend of quantitative forecasting and trends analysis provides forward-looking insight for thousands of decision makers. Our experienced team of Analysts, Researchers, and Consultants, use proprietary data sources and various tools and techniques to gather, and analyse information. Now avail flexible Research Subscriptions, and access Research multi-format through downloadable databooks, infographics, charts, interactive playbook for data visualization and full reports through MarketNgage, the unified market intelligence engine. Sign Up for a 7 day free trial!
Contact
Rohit Bhisey
Transparency Market Research,
90 State Street, Suite 700,
Albany, NY 12207
Tel: +1-518-618-1030
USA – Canada Toll Free: 866-552-3453
Email: [email protected]
Website: https://www.transparencymarketresearch.com
Global Concentrated Solar Power Market Will Register A Cagr Of About 20.30% Between 2014–2020
Concentrated Solar Power Market: Snapshot
The global concentrated solar power (CSP) market holds a huge opportunity to rise owing to the increasing implementation of heat storage systems as well as hybridization of concentrated solar power plants with traditional thermal plants. CSP technology is said to be immensely capital intensive in nature and it can be deployed at commercial scale without the requirement of support from financial and governmental institutions. The prominent players operating in the global CSP market are continuously flourishing due to the constantly rising energy demand and the growing concerns about clean energy within developing nations.
The global CSP market stood at US$2.51 bn in 2013 and is poised to touch US$8.67 bn by 2020. The market is predicted to rise at a whopping 20.30% CAGR between 2014 and 2020. Factors such as the increasing awareness regarding global warming and the growing greenhouse gas emissions are driving the overall market for CSP. In addition, the increasing prices of traditional energy sources and the growing concerns on future supply of energy will further augment the development of the market for concentrated solar power. Furthermore, the incentives and support provided by government globally will further provide impetus to the development of the market in the coming years. Contrariwise, the soaring cost of electricity generation may come up as a roadblock in the growth of the global concentrated solar power market.
Parabolic Trough to Lead Concentrated Solar Power Market till 2020
In terms of product, the report segments the global CSP market into dish stirling, linear freshnel, solar tower, and parabolic trough. Of these, parabolic trough is the most matured technology in the market and is extensively utilized at commercial level for the generation of power. This technology held a leading position in the market in 2013 and is poised to rise at the swiftest growth rate between 2014 and 2020. The segment of tower and fresnel trailed parabolic trough, respectively. Of these, the tower technology is expanding at an exponential rate owing to the integration of technology with traditional thermal power plants, while the technology of dish sterling is employed for pilot projects and demonstration.
Europe Emerged as the Most Dominant Region in Global Concentrated Solar Power Market
On the basis of geography, the market is categorized into Europe, North America, Asia Pacific, and Rest of the World (RoW). Of these, on the basis of CSP installed capacity, Europe came up as the top producer of power globally within the CSP technology and the production in this region is predicted to expand in the coming years. Although, due to the economic slowdown within Europe, this growth of the market in Europe has experienced a gradual degradation within the installation process, still the growth of the market in this region will rise from 2014 to 2020. North America and Asia Pacific trail Europe in terms of production. On the other hand, the concentrated solar power (CSP) market is also predicted to grow in Asia Pacific in the coming years. The prime players within the market are focusing on investing within Asia Pacific and North America concentrated solar power markets.
About Us
Transparency Market Research (TMR) is a global market intelligence company providing business information reports and services. The company’s exclusive blend of quantitative forecasting and trend analysis provides forward-looking insight for thousands of decision makers. TMR’s experienced team of analysts, researchers, and consultants use proprietary data sources and various tools and techniques to gather and analyze information.
TMR’s data repository is continuously updated and revised by a team of research experts so that it always reflects the latest trends and information. With extensive research and analysis capabilities, Transparency Market Research employs rigorous primary and secondary research techniques to develop distinctive data sets and research material for business reports.
Contact
Mr. Rohit Bhisey
90 State Street, Suite 700
Albany, NY 12207
Tel: +1-518-618-1030
USA - Canada Toll Free: 866-552-3453
Email: [email protected]
Website: https://www.transparencymarketresearch.com