Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.Over 650 GW of new onshore and 130 GW of new offshore wind capacity will be installed between 2018 and 2028. This will consume in excess of 5.5Mt of copper, according to a recent analysis by Wood Mackenzie.Henry Salisbury, Wood Macken...Read More
In 2019, the age-old aphorism, 'All that glitters' certainly holds true for gold. For the year-to-date, the world's most treasured safe-haven asset has appreciated from a steady level of $1300 per troy ounce in January to its current trading levels of over $1500. In percentage terms, this translates into a 15% appreciation, at a time where tremendous uncertainty has engulfed global equities market...Read More
Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.We are excited to announce that as of February 1, Wood Mackenzie is a portfolio company of Veritas Capital, a leading investor at the intersection of technology and government. Our focus remains on providing you with the best intellig...Read More
Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.Over 650 GW of new onshore and 130 GW of new offshore wind capacity will be installed between 2018 and 2028. This will consume in excess of 5.5Mt of copper, according to a recent analysis by Wood Mackenzie.Henry Salisbury, Wood Macken...Read More
Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.Over 650 GW of new onshore and 130 GW of new offshore wind capacity will be installed between 2018 and 2028. This will consume in excess of 5.5Mt of copper, according to a recent analysis by Wood Mackenzie.Henry Salisbury, Wood Macken...Read More
Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.Over 650 GW of new onshore and 130 GW of new offshore wind capacity will be installed between 2018 and 2028. This will consume in excess of 5.5Mt of copper, according to a recent analysis by Wood Mackenzie.Henry Salisbury, Wood Macken...Read More
Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.Over 650 GW of new onshore and 130 GW of new offshore wind capacity will be installed between 2018 and 2028. This will consume in excess of 5.5Mt of copper, according to a recent analysis by Wood Mackenzie.Henry Salisbury, Wood Macken...Read More
Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.Over 650 GW of new onshore and 130 GW of new offshore wind capacity will be installed between 2018 and 2028. This will consume in excess of 5.5Mt of copper, according to a recent analysis by Wood Mackenzie.Henry Salisbury, Wood Macken...Read More
Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.Over 650 GW of new onshore and 130 GW of new offshore wind capacity will be installed between 2018 and 2028. This will consume in excess of 5.5Mt of copper, according to a recent analysis by Wood Mackenzie.Henry Salisbury, Wood Macken...Read More
Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.Over 650 GW of new onshore and 130 GW of new offshore wind capacity will be installed between 2018 and 2028. This will consume in excess of 5.5Mt of copper, according to a recent analysis by Wood Mackenzie.Henry Salisbury, Wood Macken...Read More
Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.Over 650 GW of new onshore and 130 GW of new offshore wind capacity will be installed between 2018 and 2028. This will consume in excess of 5.5Mt of copper, according to a recent analysis by Wood Mackenzie.Henry Salisbury, Wood Macken...Read More
Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.Over 650 GW of new onshore and 130 GW of new offshore wind capacity will be installed between 2018 and 2028. This will consume in excess of 5.5Mt of copper, according to a recent analysis by Wood Mackenzie.Henry Salisbury, Wood Macken...Read More
Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.Over 650 GW of new onshore and 130 GW of new offshore wind capacity will be installed between 2018 and 2028. This will consume in excess of 5.5Mt of copper, according to a recent analysis by Wood Mackenzie.Henry Salisbury, Wood Macken...Read More
Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.Over 650 GW of new onshore and 130 GW of new offshore wind capacity will be installed between 2018 and 2028. This will consume in excess of 5.5Mt of copper, according to a recent analysis by Wood Mackenzie.Henry Salisbury, Wood Macken...Read More
Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.Over 650 GW of new onshore and 130 GW of new offshore wind capacity will be installed between 2018 and 2028. This will consume in excess of 5.5Mt of copper, according to a recent analysis by Wood Mackenzie.Henry Salisbury, Wood Macken...Read More
Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.Over 650 GW of new onshore and 130 GW of new offshore wind capacity will be installed between 2018 and 2028. This will consume in excess of 5.5Mt of copper, according to a recent analysis by Wood Mackenzie.Henry Salisbury, Wood Macken...Read More
Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.Over 650 GW of new onshore and 130 GW of new offshore wind capacity will be installed between 2018 and 2028. This will consume in excess of 5.5Mt of copper, according to a recent analysis by Wood Mackenzie.Henry Salisbury, Wood Macken...Read More
Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.Over 650 GW of new onshore and 130 GW of new offshore wind capacity will be installed between 2018 and 2028. This will consume in excess of 5.5Mt of copper, according to a recent analysis by Wood Mackenzie.Henry Salisbury, Wood Macken...Read More
Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.Over 650 GW of new onshore and 130 GW of new offshore wind capacity will be installed between 2018 and 2028. This will consume in excess of 5.5Mt of copper, according to a recent analysis by Wood Mackenzie.Henry Salisbury, Wood Macken...Read More
Access our research platformsSign-in to our platforms to access our extensive research, our latest insight, data and analytics and to connect to our industry experts.Over 650 GW of new onshore and 130 GW of new offshore wind capacity will be installed between 2018 and 2028. This will consume in excess of 5.5Mt of copper, according to a recent analysis by Wood Mackenzie.Henry Salisbury, Wood Macken...Read More