10 research outputs found
Rapid reserve generation from a Francis Turbine for system frequency control
The increase in contributions from non base load renewables, such as wind and solar,can have adverse effects on the stability of an electrical grid. In this study, the possibility of rapidlyloading a Francis turbine from a tail water depression (TWD) mode for providing additional systemfrequency control is investigated. Based on the analysis of full-scale TWD test results and keyfindings from the transient testing of a micro-hydro scale turbine unit, a detailed description ofthe TWD transition process is given. The formulation of an improved turbine model for use inone-dimensional hydro-electric plant models is presented with simulation results compared tofull-scale data. The analytical model, which calculates output power according to the conservation ofangular momentum and identified sources of loss, is used in parallel with full-scale and model scaletest observations to elucidate the events and mechanisms occurring during this proposed transition.The output response, in terms of active power, was found to be highly dependent on guide vaneopening rate in both full-scale and model tests. For an approximate doubling in opening rate, theduration of the reverse power flow was reduced by 38% and 21%, for full-scale and model units,while the low pressure transient increased by 16% and 8%, respectively. The analytical model wasshown to capture the general response characteristic in all cases tested; however, output powerresponse was over predicted due to two identified model assumptions made, while, for the morerapid opening, the penstock pressure was under predicted by approximately 15%
The effect of feed frequency on growth, survival and behaviour of juvenile spiny lobster (Panulirus ornatus)
Spiny lobsters have a range of complex chemical communication pathways that contribute to feeding behaviour. Feed intake is modulated by feed availability and feed characteristics, such as attractiveness and palatability, with behavioural factors, such as social competition and circadian rhythm, providing an extra layer of complexity. In this study, we investigated the effect of feed frequency on survival and growth of early-stage (instar 26) juvenile Palunirus ornatus. In addition, we investigated the interactive effect of feed frequency and circadian rhythm on lobster feed response. Lobsters were fed a set ration at a frequency of either one, two, four, eight, sixteen or thirty-two times per day over 49 days. The effect of feed frequency on growth and survival was determined. Circadian feeding activity under these feeding treatments was assessed by time-lapse photography. Increased feed frequency from one to sixteen feeds daily improved growth by increasing apparent feed intake (AFI) and feed attraction, as confirmed by the increased presence of lobsters in the feeding area. The rapid leaching of feed attractant, particularly free amino acid, suggests a beneficial effect of multiple feeding frequencies on feed intake and growth. However, more than sixteen feeds per day resulted in decreased feed intake and a subsequent reduction in growth. The decrease in feed intake is thought to be associated with saturation of the culture environment with attractants, resulting in a reduced behavioural response to feed supplies. This may indicate the need for depletion of attractants to retrigger a feeding response. As lobsters were grown communally, faster growth at sixteen rations per day was also coupled with increased cannibalism, likely driven by increased vulnerability with the occurrence of more frequent ecdysis events. Whereas circadian rhythm indicated more activity at night, an interaction between daytime activity and feed frequency was not observed