23 July 2020
Global learnings on the impact of ‘transient’ risks on Concentrated Solar Power tower systems are driving improved storage tank piping and all-welding techniques, experts told New Energy Update.
In a bid to accelerate deployment, the US National Renewable Energy Laboratory (NREL) published June 12 the world’s first best practices report for CSP plants.
NREL researchers analyzed data and feedback from 80% of CSP plants operating worldwide, covering parabolic trough and less mature CSP tower and storage technologies.
The report sets out a number of key learnings across project management, plant design, and operations.
A key area of concern for CSP investors is the efficiency and reliability of higher temperature CSP towers, which use molten salt systems to provide low-cost energy storage. Developers are keen to move on from major performance issues seen at Crescent Dunes, the world’s first large-scale CSP tower with storage, which dented investor confidence.
Higher temperatures used in CSP tower designs have increased the importance of temperature fluctuations which can reduce efficiency and degrade components. In particular, ‘transient’ plant conditions caused by intermittent sunshine or rapid start-up and shutdown requirements are a key risk for operators, NREL said in its report.
Operators must place a greater focus on transient risks during the design and operations phase of CSP development to avoid component damage and output losses, experts told New Energy Update.
Learnings on these transient risks are spurring improvements in salt tank structures and future plant designs could be further modifed to increase efficiency, experts said.
New benchmarks
The failure of SolarReserve’s 110 MW Crescent Dunes tower plant in Nevada highlighted the impact of high-temperature transfer fluids on system structures. Crescent Dunes was brought online in October 2015 but the plant consistently missed performance objectives, leading to the closure of the plant. Issues included an eight-month shut down due to a leak in the molten salt storage system.
In court filings, SolarReserve blamed ACS Cobra, designer of the salt storage tanks, for the leak. ACS declined to comment when contacted by New Energy Update last month.
CSP levelized cost and auction price trends
Source: International Renewable Energy Agency’s ‘Renewable Power Generation Costs 2019’ report (June 2020).
More recently, attention has turned to ACWA Power’s Noor 3 tower plant in Morocco, the second tower plant built with molten salt storage. Brought online in summer 2018, the plant was supplied by Spain’s SENER and installed with China’s SEPCO Electric Power Construction Corporation under a 50/50 partnership.
Noor 3 has shown encouraging performance levels, generating over 200 GWh in the first six months of operations. The plant was taken offline for some unplanned issues in this period, mainly due to construction issues rather than technology faults, ACWA Power said in a presentation in 2019.
The Noor 3 hot salt tank structure features a “state-of-the-art” foundation design, taking lessons learned from SENER’s earlier 20 MW Gemasolar tower plant with storage in Spain, Sergio Relloso Lassa, a CSP expert in SENER’s Renewable Business Unit, told New Energy Update.
A deep understanding of salt behaviour and local ground characteristics, and a particular attention to welding of base plates, was required, he said.
«The key for success here is to make a design that can accommodate the huge weight of the tank with salts at 565ºC without transferring excessive stresses to the foundation and, at the same time, follow the right procedures during construction, commissioning and operation,» Relloso said.
Tank advances
Proper design and controls can limit the impact of transient conditions but the design of hot and cold storage tanks, and heat exchangers, could be improved, Bruce Kelly, a senior engineer at Solar Dynamics and co-author of NREL’s best practices report, told New Energy Update.
Some engineering companies are proposing new internal piping arrangements for the storage tanks, Kelly said.
The solid lubricants between the tank floor and the foundation could also be improved to control local stresses in the floor due to incomplete mixing, he said.
Heat exchangers should be built through all welded construction techniques, such as header/coil, or internal bore welding, to avoid problems in the connections between the tubes and the tubesheets, Kelly said.
Only a «limited number» of commercial projects have used all-welded steam generator construction to date, he said.
The introduction of split range flow control using multiple valves would also help reduce component fatigue. Already in operation for parabolic trough plants, the multiple valve approach provides greater control over a wider range of flow requirements.
«Accurate flow control with split range valves protects expensive equipment, such as heat exchangers, from large transients during start-up and shutdown. The improvement in the life of the fatigue heat exchangers more than offsets the marginal cost of the second valve,» Kelly said.
Efficiency gains
Intermittent cloud cover requires tower operators to continually adjust the receiver flow rate to adapt to changing levels of solar energy transferred from the heliostats.
For optimal efficiency, receivers are designed to operate at 565 C. To prevent the receiver from overheating due to a sudden increase in solar radiation, outlet temperatures for the heat transfer fluid are typically lowered to around 520 C-540 C. Lower temperature reduce the efficiency of the power block.
China’s Supcon Solar is currently implementing cloud impact systems at its 50 MW Delingha CSP tower plant in Qinghai Province, to improve plant efficiency.
Delingha CSP output, fulfilment rates in first six months
Source: Supcon Solar
«Ideally, the plant would be designed not on the theoretical receiver outlet temperature of 565 C, but at some lower temperature (say, 540 C) that reflects the long term, annual average salt temperatures in the hot tank,» Kelly said.
Greater control
Intermittent sunshine around the typical morning start-up phase also impacts plant efficiency.
At morning start-up, preheating, filling and venting the receiver can take up to 45 minutes. If solar radiation varies shortly after sunrise, the start-up process is extended, reducing the daily operating hours, Kelly said.
SENER used learnings at the Gemasolar plant to create a faster ramp up phase at Noor 3, Relloso said.
During the spring and summer, Noor 3 is required to stop operating at midnight and start up again in the morning.
«This adds one start-up per day in this period of the year, which has to be considered both at plant design and operation,» he said.
SENER has developed a performance simulation tool which takes into account all types of transient conditions, including cloud cover, receiver start-up and shutdown, turbine start-up and shutdown and grid instructions. The system uses sensors to feed analytics and achieve higher levels of efficiency, Relloso said.
SENER also transferred O&M personnel from the Gemasolar plant to Noor III to ensure learnings were implemented.
Comprehensive operator training is key to minimizing losses, Kelly said.
«Training on risks to the equipment due to thermal transients, in combination with permissiveness in the [distributed control system] logic, will translate directly to significant improvements in the low cycle fatigue life of the storage tanks and the steam generators,» he said.
Advanced modelling
As installed tower capacity grows, performance modelling must incorporate the latest learnings on transient conditions to avoid overestimation of output.
«In general, performance models tend to over-estimate the ability of the plant, and the ability of the operators, to capture every Joule of energy falling on the heliostat field,» Kelly said.
«As a minimum, the financial community will start to insist on realistic performance projections,» he said.
Advanced modelling of computational fluid dynamics and finite element analysis should provide greater understanding of component fatigue, Kelly noted.
«Once the magnitude of the transient effects are understood, improved equipment designs (such as storage tank distribution piping) and revised process controls (such as split range flow control) can be put into place to properly protect the equipment from high stress conditions,» he said.
Brighter future
Targeted improvements to CSP tower designs will help extend lifespans, Kelly noted.
«The keys to long plant life are equipment designs geared toward daily start-up and shutdowns, and comprehensive operator training. The latter is at least as important as the former,» he said.
Wider implementation of best practices and successful operations at Noor 3 in the coming years should help boost investor confidence in tower technology and distance the sector from Crescent Dunes.
SENER is confident it has minimized the risks of transient conditions in its plant designs and has moved onto new areas of improvement, Relloso said.
Key projects for SENER include reducing the cost of the solar field, greater plant digitalization and efficiency savings in hybrid plant designs that integrate PV, battery storage or hydrogen production, he said.
Robin Sayles, newenergyupdate.com/csp-today