Clean technology

Fully electric car charging its battery at a public charging station.
Netafim, drip irrigation

Clean technology, also called cleantech or climatetech, is any process, product, or service that reduces negative environmental impacts through significant energy efficiency improvements, the sustainable use of resources, or environmental protection activities. Clean technology includes a broad range of technology related to recycling, renewable energy, information technology, green transportation, electric motors, green chemistry, lighting, grey water, and more. Environmental finance is a method by which new clean technology projects can obtain financing through the generation of carbon credits. A project that is developed with concern for climate change mitigation is also known as a carbon project.

Renewable transportation fuel composed of organic waste. Alternative fuel strategies drastically lowers carbon emissions and air pollution.

Clean Edge, a clean technology research firm, describes clean technology "a diverse range of products, services, and processes that harness renewable materials and energy sources, dramatically reduce the use of natural resources, and cut or eliminate emissions and wastes." Clean Edge notes that, "Clean technologies are competitive with, if not superior to, their conventional counterparts. Many also offer significant additional benefits, notably their ability to improve the lives of those in both developed and developing countries."

Wind turbines in a field in Spain.

Investments in clean technology have grown considerably since coming into the spotlight around 2000. According to the United Nations Environment Program, wind, solar, and biofuel companies received a record $148 billion in new funding in 2007 as rising oil prices and climate change policies encouraged investment in renewable energy. $50 billion of that funding went to wind power. Overall, investment in clean-energy and energy-efficiency industries rose 60 percent from 2006 to 2007.[1] In 2009, Clean Edge forecasted that the three main clean technology sectors, solar photovoltaics, wind power, and biofuels, would have revenues of $325.1 billion by 2018.[2]

According to an MIT Energy Initiative Working Paper published in July 2016, about a half of over $25 billion funding provided by venture capital to cleantech from 2006 to 2011 was never recovered. The report cited cleantech's dismal risk/return profiles and the inability of companies developing new materials, chemistries, or processes to achieve manufacturing scale as contributing factors to its flop.[3]

Clean technology has also emerged as an essential topic among businesses and companies. It can reduce pollutants and dirty fuels for every company, regardless of which industry they are in, and using clean technology has become a competitive advantage. Through building their Corporate Social Responsibility (CSR) goals, they participate in using clean technology and other means by promoting Sustainability.[4] Fortune Global 500 firms spend around $20 billion a year on CSR activities in 2018.[5]

Silicon Valley, Tel Aviv and Stockholm were ranked as leading ecosystystems in the field of clean technology.[6] According to data in 2024, there are over 750,000 international patent families (IPFs) focused on clean and sustainable technologies worldwide. This represents approximately 12% of the total number of IPFs globally.[7][8] From 1997 to 2021, over 750,000 patents for clean and sustainable technologies were published, making up almost 15% of all patents in 2021, compared to just under 8% in 1997.[7] Japan and the US each account for over 20% of clean technology patents, though their annual numbers have stabilized at around 10,000.[7][9]

Between 2017 and 2021, European countries accounted for over 27% of international patent families (IPFs) in clean technology globally. This places Europe ahead of other major innovators, such as Japan (21%), the United States (20%), and China (15%).[7]

There are two major stages when cleantech patenting has advanced. The first is from 2006 to 2021, driven by the EU and Japan (27% and 26% of overall increase in IPFs). The next stage is from 2017 to 2021, led by China, which accounted for 70% of the increase in IPFs. [7][10]

  1. ^ "Archived copy". Bloomberg News. Archived from the original on 2010-05-25. Retrieved 2017-03-06.{{cite web}}: CS1 maint: archived copy as title (link)
  2. ^ Addison, John (2009-03-11). "Solar, Wind and Biofuels' Impressive Growth Surge in '08". Seeking Alpha. Retrieved 2018-01-03.
  3. ^ Gaddy, Benjamin; Sivaram, Varun; O’Sullivan, Dr. Francis (2016). "Venture Capital and Cleantech: The Wrong Model for Clean Energy Innovation" (PDF). 77 Massachusetts Ave., Cambridge, MA 02139, USA: MIT Energy Initiative.{{cite web}}: CS1 maint: location (link)
  4. ^ Ramanan, Ram (2018-07-04). Introduction to Sustainability Analytics (1 ed.). CRC Press. doi:10.1201/9781315154909. ISBN 9781315154909. S2CID 135252457.
  5. ^ Meier, Stephan; Cassar, Lea (2018-01-31). "Stop Talking About How CSR Helps Your Bottom Line". Harvard Business Review. ISSN 0017-8012.
  6. ^ Cite error: The named reference :7 was invoked but never defined (see the help page).
  7. ^ a b c d e Bank, European Investment (2024-04-25). Financing and commercialisation of cleantech innovation. European Investment Bank. ISBN 978-3-89605-366-4.
  8. ^ Ballocchi, Andrea (2024-05-10). "Cleantech patents: expanding research and innovation in green energy and climate". Tech4Future. Retrieved 2024-05-22.
  9. ^ "Hydrogen patents shift towards clean technologies with Europe and Japan in the lead".
  10. ^ "World IP Day: EPO reveals 33% jump in cleantech inventions over five years". www.worldipreview.com. Retrieved 2024-05-31.