grant

Using Cloud-System Resolving Models with a Data-driven Strategy to Advance Theories of Convectively Coupled Waves and the Madden-Julian Oscillation

Organization Harvard UniversityLocation CAMBRIDGE, United StatesPosted 1 Jun 2026Deadline 31 May 2029
NSFUS FederalResearch GrantScience FoundationMA
Get Agency plan to apply$29.99/mo · 7-day free trial · pipeline · alerts
— or —

Get email alerts for similar roles

Weekly digest · no password needed · unsubscribe any time

Description preview

Satellite images of the tropics commonly show large regions of rain and deep convective clouds moving along the equator, crossing the Pacific over the course of a week or two. The size and propagation speed of the cloudy regions are linked to planetary-scale equatorial waves but the theory does not involve moisture, clouds, or precipitation. As a…

🔒

Full details available on the Agency plan

Unlock the complete grant description, eligibility criteria, contract value, evaluation details and apply link — plus alerts, pipeline tracking, and CSV export.

Start 7-day free trial — $29.99/mo →

Agency Plan

7-day free trial

Unlock procurement & grants

Upgrade to access active tenders from World Bank, UNDP, ADB and more — with email alerts and pipeline tracking.

$29.99 / month

  • 🔔Email alerts for new matching tenders
  • 🗂️Track tenders in your pipeline
  • 💰Filter by contract value
  • 📥Export results to CSV
  • 📌Save searches with one click
Start 7-day free trial →

Explore more

📍 More grants in United States🏷 More NSF opportunities🏷 More US Federal opportunities🏷 More Research Grant opportunities🏢 All nsf_awards opportunities
Using Cloud-System Resolving Models with a Data-driven Strategy to Advance Theories of Convectively Coupled Waves and th | Dev Procure