Flexible Power Technologies Will Make Africa’s Energy Leapfrogging A Reality—Marc Thiriet

<h4>Flexible Power Technologies Will Make Africa&&num;8217&semi;s Energy Leapfrogging A Reality<&sol;h4>&NewLine;<p><strong><a href&equals;"https&colon;&sol;&sol;openlife&period;ng&sol;">OpenLife Nigeria<&sol;a><&sol;strong> reports that according to Marc Thiriet&comma; Director&comma; Africa&comma; Wärtsilä Energy&comma; Africa&&num;8217&semi;s ability to leapfrog traditional power systems and adopt renewables on a massive scale is not a fantasy&period; He says In-depth studies from Wärtsilä have demonstrated that with the adequate support of flexible power technologies&comma; ambitious renewable energy objectives in Africa are not only achievable&comma; they also represent the soundest and cheapest strategy for the successful electrification of the continent<&sol;p>&NewLine;<p><strong>A new power generation paradigm perfectly suited for Africa <&sol;strong><&sol;p>&NewLine;<p>There has been much discussion about Africa&&num;8217&semi;s ability to &&num;8216&semi;leapfrog&&num;8217&semi; the way power systems have been built in the western world&period; For over a century&comma; traditional power systems have been based on centralised power generation&comma; with a limited number of large thermal power plants providing baseload electricity through a massive transmission network&period; This way to generate power is however coming to an end&colon; the climate emergency is calling for a 180-degrees paradigm shift in which renewables replace thermal power plants as the baseload source of energy&period;<br &sol;>&NewLine;This new power generation paradigm is&comma; in many ways&comma; a perfect fit for Africa&period; The continent enjoys some of the highest wind and solar energy resources on the planet&comma; which means that the renewable energy plants built here boast some of the best productivity rates in the world&period; Almost anywhere in Africa&comma; renewables are the cheapest power generation option available today by a significant margin&period;<br &sol;>&NewLine;Although relatively ambitious renewable energy targets have been set by most governments across the continent&comma; there is still widespread scepticism that renewable energy&comma; which is intermittent by nature&comma; can provide a reliable source of baseload power&period; This scepticism is unjustified&period; With the appropriate deployment of grid balancing technologies like gas engine power plants or energy storage&comma; huge amounts of renewable energy can be built in the system while at the same time ensuring a stable and reliable network&period; Energy experts at Wärtsilä&comma; who have built 76 GW of power plant capacity in 180 countries around the world&comma; certainly know a thing or two about that&period;<br &sol;>&NewLine;<strong>Building reliable power systems<&sol;strong><br &sol;>&NewLine;Yes&comma; renewables are intermittent&comma; but it&&num;8217&semi;s a challenge that we have long known how to solve&comma; providing the need for flexible power capacity is not underestimated&period;<br &sol;>&NewLine;As intermittent renewable energy becomes the new baseload&comma; the system will have to cope with a large amount of variable power that can disrupt the grid&period; Flexible power must therefore be available to ramp up production at the same rate that wind or solar production fluctuates&comma; but also to match the fluctuating energy demand within the day&period; System imbalances can be at times huge&comma; but the system will stay safe as long as renewable energy deployment is matched with corresponding levels of flexible power capacity&period;<&sol;p>&NewLine;<figure id&equals;"attachment&lowbar;20102" aria-describedby&equals;"caption-attachment-20102" style&equals;"width&colon; 300px" class&equals;"wp-caption alignnone"><img class&equals;"size-medium wp-image-20102" src&equals;"https&colon;&sol;&sol;openlife&period;ng&sol;wp-content&sol;uploads&sol;2023&sol;03&sol;Marc&period;&period;&period;-300x169&period;jpg" alt&equals;"Flexible Power Technologies " width&equals;"300" height&equals;"169" &sol;><figcaption id&equals;"caption-attachment-20102" class&equals;"wp-caption-text"><em><strong>Smart Energy vision<&sol;strong><&sol;em><&sol;figcaption><&sol;figure>&NewLine;<p>Flexible engine power plants are the only technology designed to work hand-in-hand with renewables&comma; as they can efficiently cope with multiple daily start and stops&period; They also offer the significant advantage of being able to run on different fuels&comma; from natural gas and heavy fuel oil today&comma; to locally produced hydrogen and biofuels tomorrow as they become competitive and broadly available&period; Thanks to this muti-fuel capability&comma; not only do engine power plants provide a great hedge against fuel supply risk&comma; but they are also the ultimate &&num;8220&semi;future-proof&&num;8221&semi; technology for energy leapfrogging&comma; as the gas engines can simply be converted to run on green fuels like hydrogen to reach 100&percnt; renewables&period; Engine power plants offer a solid&comma; long-term foundation on which African countries can build modern and resilient clean power systems&period;<br &sol;>&NewLine;<strong>Energy leapfrogging requires a tailormade approach<&sol;strong><br &sol;>&NewLine;Delivering on energy leapfrogging is going to be a complex&comma; multi-decade process&period; Each country in Africa features its own unique mix of natural resources&comma; geographical opportunities and constraints&comma; population density&comma; alongside a myriad of other parameters&period; Each country will therefore require its own tailormade and optimal power system expansion plan to accomplish its leapfrogging&period;<br &sol;>&NewLine;What would such a plan look like in practice&quest; Let&&num;8217&semi;s take Nigeria as an example&period; Using advanced energy system modelling techniques&comma; Wärtsilä&&num;8217&semi;s analysts have designed a detailed roadmap showing how Nigeria could proceed to build a 100&percnt; renewable energy power system and meet its 2060 net zero target&period;<br &sol;>&NewLine;According to our models&comma; by<a href&equals;"https&colon;&sol;&sol;www&period;vanguardngr&period;com&sol;"> 2060 Nigeria&&num;8217&semi;s power capacity should consist of 1&comma;200 GW of renewable energy and require a total of 283 GW of energy storage and 34 GW of flexible engine power<&sol;a> plants for grid balancing purposes&period; On the other hand&comma; inflexible sources of power like coal&comma; oil or gas turbine power plants have now become the exception rather than the norm&period;<br &sol;>&NewLine;For this plan to succeed&comma; Nigeria&&num;8217&semi;s domestic gas must still play a crucial transition role&colon; It will be mobilised as an inexpensive bridging fuel for engine power plants&comma; in support of intermittent renewable energy generation&comma; until these plants can be converted to run purely on green hydrogen in the early 2040&&num;8217&semi;s&period;<br &sol;>&NewLine;This is the soundest power system from both an environmental and economic standpoint&period; Our research indeed shows that investing in renewable energy and flexibility from gas engines and energy storage is the most cost-effective way for Nigeria to reduce energy costs&comma; increase energy access and improve grid reliability&period; For the plan to succeed&comma; however&comma; the country will have to greatly improve its power transmission infrastructure&comma; develop a strong and dependable policy framework&comma; and attract significant investment&period;<br &sol;>&NewLine;The global shift to renewable energy provides Nigeria&comma; and Africa as a whole&comma; with a unique opportunity to leapfrog the carbon-based power systems that have been the norm in the West&period; Delivering on this opportunity would represent a giant step forward in the country&&num;8217&semi;s development&period; But an adequate and carefully planned deployment of flexible power technologies to balance the intermittency of renewables is the sine qua non condition for energy leapfrogging to succeed in Nigeria&comma; as anywhere else on the continent&period;<&sol;p>&NewLine;<p>&nbsp&semi;<&sol;p>&NewLine;