Uk Space Agency
Delivered by the Centre for Earth Observation Instrumentation (CEOI), the 9 million will support 12 projects that will enhance the ability to monitor Earths atmosphere and measure critical emissions such as carbon dioxide, methane, and nitrogen dioxide. This doubles the programmes previous largest funding round.
The instruments under development could give a clearer picture of where activities and incidents producing high levels of emissions such as wildfires or inefficient farming techniques are taking place, enabling decision-makers to coordinate more effective responses.
Andrew Griffith MP, Minister for Space at the Department for Science, Innovation and Technology, said:
This exciting new generation of satellite instruments, backed by 9 million in government funding, will play a key part in our efforts to tackle climate change, pinpointing where emissions are highest on our planet and cementing UK leadership in Earth observation, while helping to attract more private investment into this fast-growing sector.
Beth Greenaway, Head of Earth Observation and Climate at the UK Space Agency, said:
Satellites play a vital role in monitoring emissions, weather patterns and other environmental factors, using a variety of sensors and instruments that return information to Earth. Indeed, some of the information can only be collected from space.
These new projects highlight the strength and diversity of UK expertise in both universities and companies across the UK they are at the cutting edge of inventing the newest tools and techniques. The 16th CEOI call shows that we are ready to match the commitment of the UK space sector to ensuring the Earth observation capabilities stay at the forefront of the global demand.
The UK is a world leader in Earth observation, having pledged 314 million to Earth observation programmes as part of a record 1.8 billion investment in the European Space Agency (ESA).
Last month, ESA shortlisted two ambitious UK projects in the latest round of its Earth Explorers programme, dedicated to backing the most innovative satellite missions that will help positively influence climate science and the operational monitoring of the environment.
Having both received funding from the CEOI programme in the past, these projects include Hydroterra+, which would be placed in geostationary orbit to give data twice a day on water cycles and tectonic events over Europe, the Mediterranean and north Africa, and Keystone, which would provide the first direct observations of atomic oxygen at 50 to 150km altitude to help scientists examine the impact of solar cycles and space weather on particular regions of our atmosphere.
The Earth Explorers programme includes missions such as the European-Japanese EarthCARE, due to launch later this month to improve the reliability of climate predictions and weather forecasts. More than a decade in the making, EarthCARE has significant UK contributions from Airbus Defence & Space UK, Surrey Satellite Technology, Thales Alenia Space UK, RAL Space, Teledyne e2v, GMV-UK, Telespazio UK, CGI UK and several British universities.
Other upcoming missions include Biomass, which is being built in the UK by Airbus to provide crucial information about the state of forests and how they are changing.
The 9 million CEOI pot will be bolstered with more than 2 million additional funding from the academic and private sectors.
Nicolas Leveque, Director of the CEOI, said:
This additional funding from the?UK Space Agency demonstrates its continued support for the development of high-end remote-sensing technologies. These technologies will fill many gaps in our observing capabilities and help better understand some of the more complex processes driving the Earth climate and environment. This funding round will act as an accelerator, bringing the launch of new instruments?forward?by several years.
We also welcome the responsiveness of the research, academic and industrial community, who have put together ambitious work plans to match the level of investment.
The CEOI projects
CITISCAN Payload Development (1,150,000) - Thales-Alenia Space UK with support from University of Leicester
CITISCAN aims to further develop two new instruments to measure aerosols like nitrogen dioxide at a high resolution, in near real-time in urban areas. The project will further define specific mission requirements through community collaboration, and progress towards technological readiness through redesign and maturing the electronics.
Cold Atom Interferometry Thermosphere Drag Measurement (CAITDM) (1,000,000) - STFC-RAL with support from University of Nottingham and Metamorphic Additive Manufacturing Ltd
CAITDM will resolve knowledge gaps in our understanding of the upper atmosphere using a cold-atom accelerometer to precisely measure its spatial and temporal fluctuations. The project will build a fully functional breadboard to demonstrate the concept, while developing the electronics control and laser technology on board.
SOLSTICE: Solar Occultation Limb Sounding Transformative Instruments for Climate Exploration (2,300,000) - STFC-RAL with support from Bright Ascension and Open Cosmos
SOLSTICE aims to improve monitoring of changes in the atmosphere using two instruments working together: HIROS is a thermal infrared spectrometer providing information on atmospheric transmission of gases, and HSDI is an imager for water vapour, aerosols and air pressure. This project will produce and test a representative payload model, validate its scientific accuracy and value, and further develop data interfaces and ground platforms.
Prototyping an unfolding space telescope for a small satellite platform (900,000) - Super-Sharp Space Systems with support from In-Space Missions Ltd
This project aims to develop an unfolding, self-aligning thermal infra-red space telescope to produce maps that can identify activities with high carbon emissions, as well as identify wildfires or improve crop irrigation. Through CEOI the team aims to develop a prototype of the platform for a small-sat.
The Near Infrared Multispectral Camera for Atmospheric Methane (NIMCAM): Instrument demonstration and space mission development (1,700,000) - University of Edinburgh with support from STFC-UKATC (UK Astronomy Technology Centre), NPL (National Physical Laboratory)
Building on prior support, NIMCAM aims to capitalise on the growing demand for methane measurements by building a high spatial resolution near-infrared camera to improve global coverage and discover smaller leaks than ever before. The grant focuses on an airborne demonstration as well as the satellite mission and instrument design and space-relevant environment testing.
Hyperspectral Chroma-D Instrument (HERCHI) Payload Development (900,000) Surrey Satellite Technology Ltd, with support from Pixalytics Ltd
Hyper-spectral cameras can target molecules such as carbon dioxide, nitrogen dioxide, carbon monoxide, and methane in the atmosphere to measure carbon emissions and air quality and this new generation of technology will create a new generation of detectors. The project will produce a breadboard model of a camera and perform some basic characterisation as part of its technological readiness-raising activities.
Expanding GNSS-R for HydroGNSS Constellation (250,000) Surrey Satellite Technology Ltd with support from University of Nottingham and National Oceanography Centre, Southampton
While HydroGNSS aims to be launched in 2024, SSTL aim to investigate other novel uses of the system. As part of the project, they will examine methods of gaining global navigation satellite system (GNSS) altimetry, combining with other GNSS providers and the effects of radio frequency interference.