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Orbex

Orbital Express Launch Limited, known as Orbex, is a United Kingdom-based private aerospace company founded in 2015 that develops micro-launch vehicles to provide low-cost, dedicated orbital insertion services for small satellites. The company's flagship product, the two-stage Prime rocket, utilizes renewable bio-propane propellant to achieve up to 96% lower carbon emissions compared to traditional kerosene-fueled launchers and incorporates patented REFLIGHT technology for future booster reusability. Headquartered in Forres, Scotland, with facilities in London and Copenhagen, Orbex has secured significant funding from UK government sources, European partners, and private investors to support development toward its first launch, now targeted for 2025 from a UK spaceport, though the company recently abandoned plans for the Sutherland site in favor of alternative strategies to accelerate operations. Notable milestones include the 2022 unveiling of the full Prime stack—the first such reveal for a European microlauncher—and ongoing engine testing, but progress has faced delays, including a CEO transition in 2023 amid preparations for operational readiness.

History

Founding and Initial Development

Orbital Express Launch Limited, operating as Orbex, was founded in 2015 in , , by Chris Larmour and Kristian von Bengtson under the initial name Moonspike Ltd. The company's early ambition centered on a private mission to the Moon, pursued through a campaign that ultimately did not achieve its fundraising targets, prompting a strategic pivot toward commercial orbital launch services for small satellites. Following the to Orbex, initial emphasized the of a two-stage microlaunch named Prime, optimized for payloads up to 150 kilograms to , with a focus on reusability in upper stages and to minimize environmental impact. In 2016, Orbex obtained seed funding to support operations and opened a facility in , complemented by Phase 1 funding from the Commission's Horizon SME Instrument program for feasibility studies on launch technologies. Key early technical advancements included the first hot-fire test of a engine in 2017, validating subscale capabilities using proprietary formulations, and receipt of the 's National Avionics award for integration innovations. By 2018, these efforts culminated in Series A to scale engineering teams and prototype manufacturing, alongside grants under the Launch Programme and initiatives, positioning Orbex as a preferred microlauncher partner for the and securing Deimos as its inaugural customer for dedicated missions.

Expansion and Relocation to the UK

Orbex was founded in 2015 in , , initially under the name Moonspike by Chris Larmour and Kristian von Bengtson, with early work focused on launch vehicles. In 2016, following seed funding, the company opened a dedicated facility in , a suburb of , to advance and development. This Danish base supported initial prototyping, but as Orbex sought to capitalize on space policy incentives and proximity to planned northern launch sites, it began relocating core operations to . By 2017, Orbex conducted its first engine tests under auspices, signaling a toward British infrastructure and regulatory alignment. The company formally established its headquarters in , , , and in 2019 opened a 19,000-square-meter production and testing facility there to manufacture the Prime rocket, employing local engineers for of stages and engines. This move positioned Orbex to access UK grants, such as those from the 's National Space Innovation Program, and aligned with ambitions for domestic orbital launches from sites like . The relocation expanded Orbex's from a small Danish to over 120 employees by 2023, with approximately 80% based in the , fostering high-skill jobs in . Denmark retained a for specialized design and testing, including a "Green Propulsion Excellence Centre" funded by Innovation Fund Denmark in 2024 with DKK 23 million (€3 million) for R&D. In July 2024, Orbex announced further UK expansion, establishing a office for business development and policy engagement while scaling its Forres headquarters to support increased production capacity ahead of Prime's . These steps reflected strategic growth amid challenges like delayed approvals, enabling Orbex to secure UK investment of £20 million in January 2025 for launch .

Key Milestones Up to 2025

In May , Orbex unveiled the first full-scale prototype of its Prime micro-launcher on a dedicated , marking a significant step in hardware development for deployment to . By November , the company announced the initiation of final preparations for its inaugural launch from in , targeting operational readiness for dedicated missions. In August 2024, Orbex reaffirmed its trajectory toward a first orbital launch in 2025, emphasizing a niche focus on microlaunch services amid shifting market dynamics favoring larger vehicles by competitors. 2024 saw Orbex its debut Prime mission to in , halting prior infrastructure work at to align with accelerated timelines and site readiness. On January 29, 2025, the UK government provided £20 million in funding to Orbex, enabling the first investment in domestic orbital launch and supporting a projected end-of-2025 debut flight. In early July 2025, Orbex established a with Exolaunch to broker end-to-end launch brokerage for small satellites aboard Prime and its planned Proxima variant, expanding market access in . Later that month, on July 7, Orbex was pre-selected by the as one of five participants in the European Launcher Challenge, positioning it to advance sovereign launch capabilities with potential further funding. Mid-2025 reports indicated delays in Prime's debut to 2026 due to unresolved infrastructure challenges at SaxaVord and funding gaps, though the company maintained development momentum. On September 10, 2025, Orbex achieved a critical benchmark by completing the first full of Prime, validating integrated performance ahead of flight operations.

Technology and Design

Orbex Prime Launcher Specifications

The Orbex Prime is a two-stage, vertically launched microlauncher developed by Orbex for dedicated missions to (), emphasizing environmental sustainability through the use of renewable bio-propane propellant alongside (LOX). The features a reusable first stage, with the booster designed for downrange recovery via and ground operations to minimize orbital and . Its architecture incorporates carbon composite structures for reduced inert mass and 3D-printed Vortex engines manufactured in a single piece to enhance performance and manufacturability. Key physical specifications include a total height of 19 meters and a maximum of 1.45 meters, with a gross liftoff of approximately 18 tonnes. The payload capacity is targeted at up to 200 kg to , though operational figures for (SSO) at 500 km are cited as 150–180 kg in various assessments, reflecting ongoing refinements in vehicle performance.
ParameterSpecification
Stages2 (first stage reusable)
Propulsion7 × Vortex engines (6 first stage, 1 second stage); /bio-propane bipropellant
Engine Features3D-printed copper alloy; pressure-fed with independent turbopumps
Fuel (renewable propane derivative); ~90% lower lifecycle CO₂ emissions vs.
GuidanceFlight-proven GNC with redundant systems
The Vortex engines, developed in-house, utilize additive manufacturing to achieve a 30% weight reduction compared to traditional welded designs, enabling higher thrust-to-weight ratios without joints that could compromise reliability. Propellant loading supports precise insertion for microsatellites, with the vehicle's compact footprint facilitating integration at austere launch sites like those in . Development as of 2025 includes scalability efforts to boost to 300 kg via enhanced R&D, though first flights remain focused on validating baseline performance.

Propulsion and Sustainability Features

The Orbex Prime rocket employs a bipropellant propulsion system using bio-propane (liquefied biogas, or BioLPG) as fuel and (LOX) as the oxidizer, marking a departure from conventional kerosene-based systems in launchers. The first stage features six 3D-printed engines, each delivering approximately 30 kN of thrust, while the second stage uses a single similar engine, enabling the vehicle to reach altitudes of around 80 km during ascent. These engines incorporate innovative features such as ignition systems and advanced turbo-pumps for efficient performance and reliability. Bio-propane is sourced from renewable feedstocks like and or renewable byproducts, ensuring a closed that minimizes net emissions compared to fossil-derived fuels. Independent analysis indicates that Prime launches produce up to 96% lower emissions than equivalent kerosene-fueled micro-launchers, primarily due to the biofuel's lower combustion and the absence of particulates, which contribute to atmospheric warming. Orbex plans to integrate a biopropane purification system at its site to further enhance fuel quality and reduce logistical emissions. Sustainability extends to propulsion reusability through the patented REFLIGHT system, which enables controlled re-entry and of the first stage via engine relight capability, potentially reducing manufacturing demands and waste over multiple flights. While full reusability remains unproven in orbital flights as of 2025, ground testing of engine clusters has validated the bio-propane/ combination's compatibility with recovery operations, supporting Orbex's goal of lifecycle emission reductions.

Launch Infrastructure

Spaceport Selection Process

In 2018, the identified on the A' Mhòine peninsula in northern as a candidate site for vertical orbital launches following an evaluation of multiple locations based on geographic suitability for polar orbits, overflight paths over , and minimal population risk. Orbex selected after a competitive assessment process, citing its northern latitude enabling efficient access to sun-synchronous orbits and compliance with environmental and regulatory criteria established by the agency. The agency allocated £2.5 million toward site development, supporting Orbex's plans alongside initial partner for launches. By November 2022, Orbex secured a for the site and committed to constructing as the UK's first dedicated vertical launch facility, with ambitions for up to 12 annual launches of its Prime and a focus on carbon-neutral operations through integration. commenced in May 2023, including groundwork for a and access roads, following planning approval in June 2020 and environmental licensing pursuits with the . On December 4, 2024, Orbex paused construction indefinitely to redirect resources toward vehicle maturation and accelerate its debut flight, opting instead for initial operations at the operational in , which offers comparable northerly trajectories and existing infrastructure. This commercial pivot, retaining the lease for potential future expansion, prioritized funding for a new medium-lift vehicle named Proxima over site buildout delays, aiming for a 2025 launch window from while maintaining regulatory applications for .

Operational Plans and Infrastructure Development

Orbex initially planned to develop on the in northern as the primary site for operational launches of its Prime rocket, with the company assuming responsibility for construction oversight and full operational management following a November 2022 agreement. The 10-acre facility was designed to support micro-class orbital launches, accommodating vehicles up to 20 meters in length, including dedicated infrastructure such as launch pads, integration buildings, propellant storage, and mission control facilities tailored for vertical-launch operations. for the site was secured in June 2020, with subsequent modifications requested to optimize the layout for efficiency and environmental compliance. Construction commenced with groundbreaking on May 5, 2023, targeting completion of core infrastructure by August 2024 to enable an initial launch in early 2025. The development emphasized sustainable features, including low-emission integration and minimal environmental footprint, aligning with Prime's biofuel-based engines, while incorporating protocols for high-caution activities like hypergolic fuel handling. Orbex's Forres facility in was established as the primary manufacturing hub for Prime components, with logistics planned to feed directly into for final assembly and . In December 2024, Orbex paused active construction at to redirect resources toward accelerating its debut launch, opting instead for initial operations at in , which offered a more advanced readiness state. The company retained its long-term lease for , positioning it as a future expansion site to scale launch cadence beyond SaxaVord's capacity, potentially resuming infrastructure build-out post-2025 once Prime achieves operational validation. This pivot addressed timeline pressures amid broader spaceport delays, with Orbex citing the need for rapid market entry in the small-satellite sector. As of mid-2025, no firm resumption date for development has been announced, though the site remains integral to long-term plans for dedicated Prime infrastructure.

Funding and Partnerships

Investment Rounds and Financial Backing

Orbex secured its initial major funding of £30 million in public and private investments on July 16, 2018, to advance development of its Prime launch vehicle and related technologies. The company's Series C funding round closed on October 18, 2022, raising £40.4 million, led by the Scottish National Investment Bank with participation from existing investors including the European Space Agency's Business Incubation Centre and the . This round supported scaling of and testing for the Prime . An extension to the Series C round was announced on April 18, 2024, adding £16.7 million from six investors, including BGF, Hamilton Lane, Ascend Bridging Finance, and others, bringing cumulative funding at that point to over £100 million and enabling a "ramp-up" phase for production and launch preparations. Orbex's Series D round began in early 2025, with the Government committing £20 million on January 29, 2025—its first direct equity investment in a orbital launch capability—bringing the round's total to £23 million to date and focusing on infrastructure for launches from . Additional participants in this round include Denmark's Export and Investment Fund and Ventures. Key backers across rounds have included venture firms such as SpaceTec Capital and Orbex LLC, alongside government entities, reflecting strategic support for space sovereignty amid competition from established players like . Overall, these investments underscore investor confidence in Orbex's biofuel-based and vertical-landing reusability features, though the company has not disclosed full details of pre-Series C rounds beyond the 2018 tranche.

Government Involvement and Strategic Alliances

The government provided £20 million to Orbex in January 2025 as part of its Series D funding round, marking the first direct investment by the in domestic orbital launch capabilities. This funding supported the construction and launch of Orbex's Prime rocket from in , aiming to position the as a leader in European space launches. In October 2025, the government approved additional funding to enable Orbex to pursue a £150 million contract with the (ESA) for launcher development. The (UKSA) has offered indirect support through endorsements and alignment with national space strategy, including hints of substantial backing for Orbex in ESA's European Launcher Challenge, for which Orbex was pre-selected in July 2025. This program provides contractual and financial incentives for launch services to ESA customers starting in 2026. Orbex's total institutional funding, including from the UK government and Scottish National Investment Bank, reached £129 million by mid-2025, bolstering infrastructure and job creation in the sector. Orbex has formed strategic alliances with several international partners to enhance its launch services and technology. In 2025, it signed a five-year agreement with Germany's Exolaunch to deliver end-to-end deployment on Prime and Proxima rockets, expanding market access for customers. A 2024 collaboration with materials firm Syensqo focuses on advancing materials for improved performance and reusability in orbital systems. Earlier, in June 2023, Orbex entered a with to explore joint European launch opportunities. Additional partnerships include Elecnor Deimos, an investor since 2018 providing satellite integration expertise, and , appointed in May 2024 to automate component production. These alliances, alongside cooperation with Enterprise for spaceport operations, support Orbex's goal of reliable, sustainable launches from the .

Achievements and Challenges

Technical Accomplishments

Orbex has conducted an extensive engine testing program for its Prime rocket, spanning over five years as of April 2022, involving multiple hot-fire tests of fully 3D-printed engines designed for reliability and low-carbon operation using bio-propane and propellants. These tests have validated the engines' performance, with the first-stage configuration featuring six engines and the second-stage one, all manufactured primarily through additive manufacturing techniques to reduce time and costs. By 2022, Orbex reported a series of successful hot-fire tests that confirmed the system's robustness ahead of full vehicle integration. In May 2022, Orbex unveiled the first full-scale prototype of the Prime microlauncher, a 19-meter-tall, two-stage capable of delivering up to 180 kg to , marking the initial European-developed microlauncher to achieve this level of hardware assembly and public demonstration on a test pad. This milestone included stacking of structural elements, integration of propulsion systems, and verification of the vehicle's overall architecture, conducted at Orbex's facilities in and the . A significant advancement occurred in September 2025 when Orbex completed its first full-duration for the , encompassing pre-launch sequences, ignition, liftoff , and ascent modeling, which served as a critical validation step prior to hardware qualification flights. This integrated from prior tests and structural analyses, demonstrating the system's readiness for operational environments without expending physical resources. Additionally, Orbex secured approvals for its REFLIGHT , aimed at enabling reusable first-stage recovery through controlled descent and landing mechanisms, though full implementation remains in development.

Delays, Criticisms, and Market Hurdles

Orbex has encountered multiple delays in achieving its first orbital launch with the Prime rocket. Initially aiming for late 2025 from the in , the company postponed the mission to early 2026, as announced by CEO Miguel Bello Mora at the in June 2025. This slippage follows an earlier shift in December 2024, when Orbex paused construction at the in the —retaining the lease for potential future use—and redirected resources to the more advanced SaxaVord site, which holds existing licenses and operational platforms. Key factors contributing to these delays include limited at SaxaVord, where only one is currently available and occupied by German competitor , resulting in site operation bottlenecks. Additional hurdles involve ongoing system testing for the biofuel-powered and incomplete readiness, despite prior investments in the facility. Criticisms of Orbex have intensified amid these setbacks, particularly after receiving £20 million in UK government funding in January 2025 as part of its Series D round, with reports highlighting how taxpayer-backed efforts have failed to prevent further lag in the international space race. Industry observers have portrayed the company as embattled, drawing scrutiny over its protracted development timeline since founding in 2015 and the UK's broader stagnation in operational space launches compared to agile competitors. Questions have arisen about the efficacy of public subsidies, given persistent operational delays despite the infusion of funds. Market challenges compound these issues, as Orbex requires an additional £120 million in private investment over four years to bridge funding gaps and complete vehicle qualification. The launch sector remains highly competitive, with established firms like achieving frequent flights while Orbex contends with spaceport access constraints and the need to differentiate via its propane-based propulsion. Orbex has expressed concerns to parliamentary committees that fragmented government support across space initiatives creates disparities, disadvantaging domestic new entrants relative to foreign or state-backed rivals.

Future Outlook

Planned Launches and Roadmap

Orbex has shifted its initial launch operations to in the Islands, pausing construction at its leased site while retaining the lease for potential future use. This transition, announced in December 2024, aims to expedite the debut of the Prime microlauncher by leveraging SaxaVord's existing infrastructure. The company's inaugural Prime launch, originally targeted for late 2025 from , has been delayed to early from SaxaVord. Orbex CEO Miguel Belló Mora indicated in June 2025 that the vehicle subsystems are advancing through reviews, with integration and testing phases underway to support this timeline. The Prime is designed to deliver payloads up to 180 kg to , targeting sun-synchronous orbits for small satellites. Long-term, Orbex envisions scaling to up to 24 launches per year once operational cadence is established, focusing on the small satellite market while competitors pursue larger vehicles. In parallel, the company plans to develop a medium-sized launch vehicle to expand its offerings, with pre-selection for the European Launcher Challenge in July 2025 providing potential funding to accelerate this roadmap. These efforts position Orbex to contribute to Europe's independent access to space, though execution depends on regulatory approvals and technical milestones.

Potential Impacts and Uncertainties

Orbex's Prime , powered by renewable derived from waste, promises reduced carbon emissions compared to traditional kerosene-based fuels, potentially mitigating the environmental footprint of launches. This approach aligns with efforts to minimize atmospheric pollution from rocket exhaust, though independent assessments of biofuel efficacy in orbital launches remain limited. Economically, successful operations could stimulate high-value jobs and supply chain spending in , with Orbex already contributing to local ecosystems through in . Broader impacts include bolstering UK sovereign launch capabilities, enabling dedicated rideshares for European small satellites and reducing dependency on foreign providers like or , thereby enhancing national security and commercial agility in the growing smallsat market. However, uncertainties loom large due to repeated delays in achieving orbital flight. Initially targeting , Orbex's maiden launch has slipped to amid infrastructure shortfalls at the in , where the company shifted operations after halting its own site development in December 2024. Funding challenges persist despite a £20 million government equity injection in early , with the firm seeking additional private capital amid cautious investor sentiment and deferred customer contracts. Technical risks, including unproven scalability of under full mission profiles, compound market pressures from established competitors offering lower costs and higher cadence. Environmental concerns at northern Scottish sites, such as potential disruptions and localized from launch activities, add regulatory hurdles, though Orbex claims compliance with mitigation protocols. These factors raise doubts about Orbex's ability to capture meaningful market share in a sector where first-mover advantages have favored incumbents.