Armin van Buuren - Orbion(David Diaz Remix)

I realise i have not inflicted Orbion (orb orion) upon you all .this mistake has been rectified .ft my fave frames

#MixOfDay #Podacast #Radioshow #LiveDjset pt.56/2 mixed by Paperclip 00:00:00 01. Sound Priest - ID 00:01:49 02. Wayzoo - Oxygen 00:03:40 03. Trempid & Wondamike - Krater 00:05:31 04. Ozma - Bacteria VIP 00:07:21 05. Irontype - Cycle 00:09:33 06. Despersion & Focusfire - Laser 00:11:46 07. Warp Fa2e - Butcher 00:13:58 08. Gilas - Soul Strike 00:15:47 09. Subminderz - Roller Ball 00:17:17 10. Paperclip x ChaseR - Geotech 00:20:13 11. Gilas - Dragon Slayer 00:22:25 12. Perimetre - Vodostok 00:24:16 13. Paperclip ft. C4 (Слепой Часовщик) - Kaidzu 00:25:44 14. Density Point - Glass Drops 00:28:20 15. Inverter - Digital Samurai 00:30:08 16. Gancher & Ruin - Rituals 00:32:00 17. Trempid & WondaMike - Assault 00:33:07 18. Ozma - Journeys 00:35:18 19. Sitri - Kyrios 00:37:09 20. Subminderz & Double Medley - ID 00:38:59 21. Eternal Vision - Who Am I 00:41:10 22. Paperclip x 3XIL3 - Burr 00:42:40 23. TNTKLZ & Impex - The Host 00:44:30 24. IJENTA - Closer 00:46:20 25. Irontype - Mundo 00:48:33 26. ChaseR & Malstrom - Ambition Zero 00:50:45 27. Акула - Стаи Птиц (Unclone Bootleg) 00:52:13 28. Warp Fa2e - Reptiles Rally 00:54:26 29. Psynchro & Toyfon - Sandpaper 00:56:38 30. Ionyx - Stupid Boy 00:57:55 31. Trempid & WondaMike - Tunnel 00:59:46 32. Mewone! - Dune 01:01:59 33. Arkei - My Way 01:03:49 34. Irontype & Marcus Zero - Alive 01:05:39 35. Rend - Altered Flow (Daptiff Remix) 01:07:30 36. TNTKLZ - ID 01:09:20 37. Enei - The Hammer 01:11:32 38. Decrese - ID 01:13:22 39. Perimetre, LX Zet, Fellon - ID 01:15:13 40. UXF - Amantia Pantherina 01:17:03 41. Abstractionia - Bor Gullet 01:19:15 42. Future Extinction - 23 01:21:06 43. UXF - Fairy Ring 01:22:57 44. Trickyskill - Solar Collapse 01:24:47 45. Double Medley - Newcomers Punch 01:27:21 46. Sound Priest - ID 01:29:17 47. Ionyx - Go 01:32:31 48. Despersion & KROT - Hot Like Fire 01:32:35 49. Trempid - Pulse 01:34:26 50. Brain Wave & Vecster - Badman 01:36:46 51. ChaseR & Malstrom - Inertia 01:39:14 52. Perimetre - ID 01:41:25 53. KROT - Folk Lore 01:43:16 54. Ozma - Stupid (Paperclip Remix) 01:45:28 55. Ozma feat. Kyoku - Take me Over (Davip Remix) 01:46:34 56. Abstractonia & Trickyskill - ID 01:48:47 57. KROT - Tourniquet (2022 Epic Remix) 01:50:37 58. NERVƎ - Echoes 01:53:12 59. ChaseR & Malstrom - Trigger 01:55:25 60. Irontype - Changes 01:57:14 61. Abstractonia - Belaz 01:59:27 62. Zedberg & Zionov - M.B.C 02:01:40 63. Xsonsence - Cromatic 02:03:18 64. Fatloaf - Breaking Leg 02:05:10 65. Aznok & Nata Mia - Яркой Звездой 02:07:06 66. NERVƎ - Chillout 02:10:02 67. ez4cheezy - Zhukovskiy dub 02:12:16 68. Ozma - ID 02:14:27 69. Orbion, MF ft. Polina Tkachenko - Thoughts of You (MF & Snowb1 Remix) 02:15:56 70. Sobersoul & Mistakes - Ceremony 02:17:45 71. Rouman - Get Vibes 02:19:13 72. Elvira T - Девочка на рейве (SAVOKI Remix) 02:20:42 73. Enei - Calm 02:22:53 74. Sobersoul - Faithless 02:25:06 75. Rouman - Landing 02:27:09 76. Aptom - Gambit 02:28:37 77. Skoel - Eclipse 02:30:49 78. Higrade - Peregruz 02:32:28 79. Rouman - Mechanism 02:33:55 80. Enei - Acid Shot 02:35:25 81. Sobersoul - Move It 02:37:37 82. Skoel & Grim Hellhound - 5 02:39:50 83. Enei, Jakes - Move In Silence 02:42:02 84. Marcus Zero & Iksaylent - Dark Elephant (ft. Papa Layan) 02:43:30 85. Double Medley - True Underground 02:45:08 86. Fulltek - Perfection 02:46:58 87. Kije - Brat 02:48:49 88. Skoel - Scorpion 02:51:23 89. Lok - Shaolin Shadow 02:54:08 90. Hoji - Cinder 02:55:37 91. Mage & Ryan Audley - Return Neurofunk, Neuropunk, Paperclip, "Drum & Bass"

Electrospray Thrusters, Global Market Size Forecast, Top 13 Players Rank and Market Share

Electrospray Thrusters Market Summary

According to the new market research report “Global Electrospray Thrusters Market Report 2023-2029”, published by QYResearch, the global Electrospray Thrusters market size is projected to reach USD 1.96 billion by 2029, at a CAGR of 12.4% during the forecast period.

Electrospray thrusters are a type of propulsion technology used in spacecraft to generate thrust by emitting charged droplets of liquid propellant. This technology utilizes the electrostatic force to accelerate and expel these tiny droplets at high velocities, producing thrust and enabling precise control of the spacecraft's movement. Electrospray propulsion systems are known for their efficiency, low power consumption, and fine control, making them suitable for various space missions.

Picture from Busek

Figure.   Global Electrospray Thrusters Market Size (US$ Million), 2018-2029

Above data is based on report from QYResearch: Global Electrospray Thrusters Market Report 2023-2029 (published in 2023). If you need the latest data, plaese contact QYResearch.

Figure.   Global Electrospray Thrusters Top 13 Players Ranking and Market Share (Ranking is based on the revenue of 2022, continually updated)

Above data is based on report from QYResearch: Global Electrospray Thrusters Market Report 2023-2029 (published in 2023). If you need the latest data, plaese contact QYResearch.

The global key manufacturers of Electrospray Thrusters include Busek, VACCO Industries, Safran, Avio, Exotrail, Accion, ienai SPACE, Reaction Engines, Phase Four, Orbion Space Technology, etc. In 2022, the global top five players had a share approximately 82.0% in terms of revenue.

Market Drivers:

Rise in Small Satellite Deployments: The increasing deployment of small satellites, including CubeSats, for various purposes such as Earth observation, communication, and scientific research, drives the demand for compact and efficient propulsion systems. Electrospray thrusters, known for their suitability in small satellite applications, benefit from this trend.

Demand for Precise Orbital Maneuverability: Electrospray thrusters provide precise control over thrust and enable accurate orbital maneuvers. As the demand for precise satellite positioning and maneuverability grows, particularly in constellations and formation flying missions, electrospray thrusters become a preferred choice.

Advancements in Miniaturized Propulsion: Ongoing advancements in miniaturized propulsion technologies, including electrospray thrusters, cater to the evolving needs of the space industry. The market is driven by a continuous focus on developing compact and efficient propulsion solutions for small spacecraft.

Restraint:

Limited Thrust Output: Electrospray thrusters typically provide relatively low thrust output compared to some traditional chemical propulsion systems. This limitation may restrict their use in certain missions that require higher thrust levels, such as rapid orbital changes or interplanetary transfers.

Complex Propellant Handling: The use of liquid propellants, especially ionic liquids, can be challenging in terms of handling, storage, and transportation. The complexity and potential hazards associated with certain propellants may pose challenges in ensuring safe and efficient operations.

Sensitivity to Contamination: Electrospray thrusters can be sensitive to contaminants in the propellant. Even small impurities or particles can affect the performance of the thruster and lead to potential issues, requiring careful management of propellant purity.

Opportunity:

Increased Miniaturization in Spacecraft: The trend towards miniaturization in spacecraft, including CubeSats and small satellites, provides an opportunity for electrospray thrusters to play a crucial role in providing efficient and precise propulsion for these compact vehicles.

Advancements in Propellant Development: Opportunities exist for the development of new and improved propellants suitable for electrospray thrusters. Research in propellant chemistry and formulation can lead to propellants with enhanced performance, stability, and safety.

Collaboration with Research Institutions: Collaborations between manufacturers of electrospray thrusters and research institutions can drive innovation. Joint research projects can explore new technologies, materials, and design approaches to overcome existing challenges and enhance the capabilities of electrospray propulsion systems.

About QYResearch

QYResearch founded in California, USA in 2007.It is a leading global market research and consulting company. With over 16 years’ experience and professional research team in various cities over the world QY Research focuses on management consulting, database and seminar services, IPO consulting, industry chain research and customized research to help our clients in providing non-linear revenue model and make them successful. We are globally recognized for our expansive portfolio of services, good corporate citizenship, and our strong commitment to sustainability. Up to now, we have cooperated with more than 60,000 clients across five continents. Let’s work closely with you and build a bold and better future.

QYResearch is a world-renowned large-scale consulting company. The industry covers various high-tech industry chain market segments, spanning the semiconductor industry chain (semiconductor equipment and parts, semiconductor materials, ICs, Foundry, packaging and testing, discrete devices, sensors, optoelectronic devices), photovoltaic industry chain (equipment, cells, modules, auxiliary material brackets, inverters, power station terminals), new energy automobile industry chain (batteries and materials, auto parts, batteries, motors, electronic control, automotive semiconductors, etc.), communication industry chain (communication system equipment, terminal equipment, electronic components, RF front-end, optical modules, 4G/5G/6G, broadband, IoT, digital economy, AI), advanced materials industry Chain (metal materials, polymer materials, ceramic materials, nano materials, etc.), machinery manufacturing industry chain (CNC machine tools, construction machinery, electrical machinery, 3C automation, industrial robots, lasers, industrial control, drones), food, beverages and pharmaceuticals, medical equipment, agriculture, etc.

Sorry 😁

Satellite Electric Propulsion Market Current and Future Growth By 2032

The electric propulsion system has garnered significant interest from several satellite industry players in 2020-2021. This has been rapidly growing owing to the increasing requirement of launching satellite constellations for communication and Earth observation. However, this is anticipated to grow in the upcoming years due to several developments, such as small satellite launches, increased satellite communication, Earth observation and remote sensing services, and technological innovations. Additionally, the role of the propulsion systems in the space industry is crucial as they are responsible for station keeping, orbital positioning, insertion, and attitude control, among others, particularly with the growing small satellite constellations being launched.

Read Report Overview: https://bisresearch.com/industry-report/satellite-electric-propulsion-market.html

The satellite electric propulsion technology companies have witnessed the demand from the growing commercial industry. The ecosystem of the satellite propulsion system market comprises system manufacturers, original equipment manufacturers (OEMs), and end users. Over the past years, the number of small satellite constellations has increased tremendously, owing to the low cost associated with their development. Thus, it is fostering the market for propulsion systems in the coming years.

The competitive landscape of the satellite electric propulsion market consists of several organic and inorganic strategies followed by the key players to increase their market share. The strategies include product innovations, contracts, partnerships, acquisitions, and business expansions, among others.

Some of the key players in the global satellite electric propulsion market include Airbus, ArianeGroup, Astra, Busek, Co. Inc, ENPULSION GmbH, and Orbion Space Technology. These companies are aiming for a wide range of partnerships, collaborations, agreements, and contracts to expand their operations and increase their market presence globally to generate revenues and attract new customers.

Satellite electric propulsion has gained significant importance over three years (2019-2021). An increase in the requirement of satellites around the globe from various end users, such as defense and government, and commercial, has generated the demand for electric propulsion during the forecast period. The industry is currently focusing on developing high-efficient and low-weight satellites that can be used for several years. The research study is based on extensive primary interviews (in-house industry players, market leaders, and experts) and secondary research (a host of paid and unpaid databases), along with analytical tools to predict the forecast analysis for the study period. With the help of these, the satellite electric propulsion study provides a broader perspective of the industry.

Request for the Sample Report at: https://bisresearch.com/requestsample?id=1358&type=download

In the current market scenario, there are diverse and mature electric propulsion systems available to propel the satellite and spacecraft in various Earth’s orbits and deep space missions. The hall-effect thrusters (HETs) and gridded-ion engines (GIE) are one of the prominent electric propulsion technologies available in the current market and are mostly used in satellites. Some of the major satellite constellation operators, such as SpaceX and OneWeb, are using HETs for their satellites owing to thrust and high specific impulse (Isp), making them suitable for longer-duration mission applications. Additionally, the national space agencies are integrating more electric propulsion for their upcoming deep space missions. For instance, NASA uses electric propulsion for power and propulsion element (PPE) in its Lunar Gateway mission, which is planned to be launched by 2024.

Orbion raises $9.2M to mass-produce plasma thrusters for small satellites

Orbion raises $9.2M to mass-produce plasma thrusters for small satellites

Michigan-based startup Orbion has secured $9.2 million in Series A funding, which it will use as it undertakes the mass-produced manufacturing of its plasma thrusters for use in small satellites. Orbion’s thrusters are Hall-effect thrusters, which use an electric field to accelerate their propellant and create thrust. Hall-effect thrusters are nothing new, but Orbion’s approach, which uses…

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i mean sometimes its just my "i wanna have Roy Orbion in top-5 of the greatest singers of all time why he's only at 13th place????" but sometimes i just don't understand why they put musicians or songs or whatever in THIS particular order you know...

bro in the top 100 drummers they put ringo fucking starr at #14..... higher than carmine appice dude i’m !!! tf

vue exceptionnelle au sommet du mont Orbion 

(David Diaz)

Pubg Mobile 1.8 Orbion Full HS Headshot 32 / 64

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Powering sustainability: Satellite propulsion underpins orbital stewardship

https://sciencespies.com/space/powering-sustainability-satellite-propulsion-underpins-orbital-stewardship/

Powering sustainability: Satellite propulsion underpins orbital stewardship

Small satellite propulsion has a critical role to play in keeping space sustainable.

While in-orbit debris cleaners and other emerging capabilities capture imaginations, thrusters underpin a healthy operating environment in space.

Onboard thrusters can help ensure a satellite safely reaches its assigned orbit, moves out of harm’s way, relocates as market and mission requirements warrant, and dispose of itself when the time comes.

It is partly why the rise of smallsat constellations has spawned dozens of propulsion startups promising more efficient thruster as concerns over congested orbits grow.

Ensuring space sustainability means giving satellite operators more propulsion capabilities for managing their constellations, according to István Lőrincz, co-founder and president of propulsion startup Morpheus Space.

“You cannot talk about space sustainability without talking about propulsion,” Lőrincz said.

Enpulsion’s Nano R3 is roughly the size of a Rubik’s Cube, weighs about a kilogram, and produces 350 micronewtons of nominal thrust.

As more satellites are added to low Earth orbit, he believes it will be increasingly crucial for smaller spacecraft to have the means to maneuver within their constellations.

Smallsats might need to dodge malfunctioning spacecraft and debris, or shift their position to heal an issue somewhere else on the network.

Lőrincz believes operators will be increasingly incentivised to deorbit spent satellites faster as constellations grow, enabling them to be replaced more efficiently and maintain or even improve service levels.

Constellations relying on intersatellite links, in particular, will want to minimize costs by limiting the number of satellites they send to space, he said, but risk “serious outages” if a spacecraft is lost and the network cannot be adjusted to compensate.“[T]o replace a malfunctioning satellite, you would have to remove it first, and obviously you want to perform that as fast and as coordinated as possible,” he said.

But for now, and in the absence of globally accepted orbital stewardship rules and incentives, he said spending resources to speed up a retired satellite’s atmospheric reentry is more about burnishing an operator’s corporate image than its bottom line.

Still, there are growing calls for international cooperation to enforce standardized rules for space operations. The World Economic Forum is developing a Space Sustainability Rating system, which scores companies based on factors including post-mission deorbit plans and collision-avoidance measures. Missions that voluntarily participate in the system would earn a certification and rating based on how they contribute to space sustainability.

NEW OPERATING ENVIRONMENT

While onboard propulsion is typical for large satellites that have provided vital services for decades, it is not as commonplace among smallsats that have relatively only recently graduated from experimental to commercial roles.

The satellites AAC Clyde Space is building for Eutelsat will use onboard propulsion for phasing, stationkeeping and collision avoidance.

“I think we’ll start seeing that more and more,” said Luis Gomes, AAC Clyde Space CEO.

“I suspect collision avoidance will become a mandatory requirement from licensing countries.”

Rules for avoiding collisions may apply, for example, to satellites operating at altitudes above 400 kilometers. Similarly, satellites operating at 600 kilometers or higher may be required to have some way to deorbit, or at least to move below the International Space Station’s altitude before deorbiting passively.

Increasingly, nanosatellites programs backed by U.S. or European government agencies require some propulsion.

“They want to see how we are going to mitigate the risk of collision with space junk,” said Vytenis Buzas, NanoAvionics CEO and co-founder.

“People are starting to talk about that and about ways to reduce the orbital altitude after the satellite is no longer operational, including propulsion, tethers and other deorbiting devices.”

If agencies mandate collision avoidance capabilities, they will need to offer clear explanations of the scenarios they envision, noted Brad King, Orbion Space Technology CEO and founder.

“If I’m trying to avoid a collision that might happen next month, that maneuver is very different than if I’m trying to avoid a collision that might happen in the next hour or so,” King said.

Orbion is developing a thruster uniquely designed for collision avoidance. While electric propulsion is extremely fuel-efficient — and thus a popular option for especially volume-constrained satellites — it is unlikely to provide enough on-demand thrust to avoid a collision without substantial lead time.

“Most electric propulsion technologies just can’t get out of the way in time even if you stomp on the accelerator,” he said. “We have a feature we added to our system that resolves that issue.”

Five years ago when Austria’s Enpulsion began developing nanosatellite thrusters, cubesats had few propulsion options. Now, companies are beginning to flight test a wide variety of chemical and electric propulsion systems sized for a growing population of relatively tiny satellites.

At the same time, regulators are beginning to insist satellites actively deorbit at the end of missions.

OIL SPILLS ARE BAD FOR BUSINESS

Companies concerned about their reputations don’t want to be seen as bad for the environment.

A satellite that crashes into something during deorbit because it does not have sufficient propulsion to control its descent would be a business-hurting PR disaster, to say the least. Oil spills on Earth, after all, tend to be bad for business.

But adding more propulsion capabilities means additional costs for a satellite operator.

A satellite devoting more of its power budget to thrusters has less available for running cameras, transponders, or other payloads central to generating revenue or meeting its mission.

Propulsion startups targeting the smallsat market aim to introduce affordable, efficient thrusters that provide plenty of boost without overtaxing a satellite operator’s finite resources — namely money, mass, onboard power and fuel.

Morpheus co-founder Lőrincz said propulsion companies like his “should be obligated to make their offering so enticing that sustainable operations have no significant impact on the bottom line. Or even better, that adopting propulsion is helping the business and this is what we set out to do.”

Morpheus was the only space mobility propulsion venture to win LEO constellation operator OneWeb’s innovation challenge in July.

Lőrincz said it is in a co-engineering phase with OneWeb to support the operator’s second-generation constellation.

AVOIDING SPACE EXPLOSIONS

More power-efficient thrusters could mean a satellite can move while imaging or communicating without putting undue strain on its batteries or solar cells.

That opens up new applications for different types of satellites, according to space propulsion startup Accion Systems, which recently sold a majority stake of the venture to private equity for $42 million.

The type of propulsion is also an important factor in space sustainability, noted Accion Chief Technology Officer Natalya Bailey.

Using a combination of liquid and electric propulsion for thrusters enables Accion’s system to be unpressurized, unlike some others that have to manage pressurized gas containment technology.

Bailey said the ability of its Tiled Ionic Liquid Electrospray (TILE) thrusters to eliminate the need for pressurized fuel tanks and high energy systems will become increasingly important as satellite population grows.

“We’re not needing to launch little bombs into orbit that have the potential to not only destroy a customer’s own constellation, if there’s a chain reaction of explosions, but they could also really muck up LEO for everybody else as well,” she said.

Debra Werner contributed to this story from San Francisco.

This article originally appeared in the August 2021 issue of SpaceNews magazine.

#Space

via Twitter @donelichterman