Cloud Seeding Market 
 

Cloud seeding is a scientific approach for increasing a cloud's ability to produce snow or rain and regulating other meteorological phenomena. In areas where there is a scarcity of natural water, the method—also known as weather modification—can be extremely advantageous. Following cloud seeding, precipitation such as rain or snow will fall to the ground. Clouds are made up of tiny water droplets or ice crystals that form when atmospheric water vapor cools and condenses around a small dust or salt particle in the atmosphere. Raindrops or snowflakes cannot form, nor can precipitation occur without these particles, also known as condensation or ice nuclei.
 

Cloud seeding is a way of changing the weather that involves injecting microscopic ice nuclei into specific types of subfreezing clouds, increasing the cloud's ability to generate rain or snow. Snowflakes can form on top of these nuclei. Cloud seeding creates new snowflakes that spread quickly and return to the Earth's surface from the clouds, resulting in increased streamflow and snowfall. This approach was created in 1946 by researchers at the General Electric Research Laboratory. They discovered that utilizing dry ice and silver iodide, an inorganic material, they could speed up the creation of ice crystals in clouds.
 

Market dynamics

• Driver
• Several major factors that could boost the cloud seeding market upward are Over the last 40 years, cloud seeding trials in Tasmania, Australia, have shown that they boost hydroelectricity production. It provides rain, offering relief to drought-affected areas.
• By reducing the impact of treated wastewater discharges from cities and businesses, cloud seeding can assist rivers maintain their minimal summer flows.
• Purpose of the cloud seeding operation is to add more snowpack to the mountains during the winter months so that more runoff will be received during the spring melt seasonThe cloud seeding program is utilized in the winter to add more snowpack to the mountains, resulting in more runoff being received during the spring melt season.
• Cloud seeding can increase tourism by making normally arid locations much more welcoming. It may be possible to employ cloud seeding to use precipitation to help dangerous air pollutants settle down. For instance: To address Delhi's air pollution, the Central Pollution Control Board and other researchers.
• Several constraints may limit the market for cloud seeding, including potential harm to the environment, humans, animals, and plants from the chemicals used.
• In the end, it may disrupt the planet's climate cycles. Dry periods can occur in normally wet places when artificial precipitation is made by putting chemicals into the atmosphere. It comprises techniques like as firing chemicals into the sky and distributing them using airplanes or flare shots, which are exceedingly expensive and necessitate extensive logistical organization. Seeding elements that will fall with the artificial rain include salt, dry ice, and silver iodide. Any residual silver found near cloud-seeding installations is considered harmful. Dry ice, which is essentially carbon dioxide, can also contribute to global warming by emitting greenhouse gasses.
   

Opportunity 

• Drone technology is rapidly improving, opening up new potential for a variety of industries, including logistics, agriculture, and surveillance. Cloud seeding and rainfall augmentation are two applications where drones are predicted to have a significant influence. As the world grapples with escalating water constraints caused by population growth and climate change, there has never been a greater need for innovative ways to supplement water supplies. Drones are emerging as a revolutionary tool in this scenario, with the potential to completely alter our approach to rainfall augmentation and cloud seeding. 
• Cloud seeding is a method of weather modification that involves releasing ingredients into the sky to increase the formation of clouds and precipitation. Historically, generators on the ground or in airplanes were used to emit silver iodide or other cloud condensation nuclei (CCN) into the atmosphere.

• Key Players
  3D SA (India)
  AFJets Sdn Bhd (Malaysia)
  Agni Aviation (India)
  Alfa Aesar (United States)
  BOCSCI Inc. (United States)
  Ice Crystal Engineering (United States)
  Kyathi Climate Modifications LLP (India)
  Mettech S.p.A (Canada)
  Micron Platters (United States)
  North American Weather Consultants (United States)
  RHS Consulting Limited (United States)
  Snowy Hydro Limited (Australia)
  Weather Modification Inc (United States)
   
• Segmentation

•    By Type
o    Hygroscopic Cloud Seeding
o    Static Cloud Seeding
o    Dynamic Cloud Seeding
 

•    By Technology
o    Ground-Based Cloud Seeding 
o    Aircraft-based Cloud Seeding 
 

•    By Application
o    Agriculture
o    Power Generation
o    Water Pollution Control
o    Tourism
o    Tackle Air Pollution
o    Fog Dispersal
o    Hail Suppression
o    Cyclone Modification
 

Recent Industry Insight

• On August 2023, NCM launches research campaign to investigate performance of different cloud seeding materials
• On Jun 2023, IIT Kanpur successfully conducts test flight for cloud seeding
• On February 2020, Scientists demonstrate that cloud seeding can generate snowfall
• On Aug 2022, Parched UAE turns to science to squeeze more rainfall from clouds
   
• Key Target Audience
  End User
  Potential Investors
  New Entrants
  Innovation and R&D
  Suppliers and Manufacturers
  Others