Offshore wind power and solar power are the most important targets for the ambitious development plan of renewable energy in Taiwan by 2025. However, the intermittency of renewables could cause serious impacts on the existing power grid; even the traditional hydropower, which has 2.1 GW installed capacity in Taiwan, shows a relatively stable power supply among the existing installed renewables, its capability of supporting peak-power demand is largely limited by the water demand and dispatch. Under the global climate changes, the strength of rainfall increases but the frequency of raining decreases in Taiwan. This factor and the disadvantageous topography for the storage of rainfall combined together make the water shortage issues become worst. To solve the aforementioned issues related to the renewables and water resources once and for all, a simulation model related to the integrated operation of renewables and water resources has been proposed in this dissertation. In this model, not only hydropower of Dajia river, newly proposed pumped-storage hydropower and desalination plants are included but also the project “Water Resources Conjunctive Use in the Taan and Tachia River” and the ambitious renewable development target planned by government are also considered. The basic ideas of the model are to enhance the flexibility of Techi reservoir and the capability of peak-power supporting from its downstream traditional hydropower; the input data include the water demand in Taichung city by 2031, the inflow curve of Techi reservoir through 2011 to 2015, the operation curve of Liyutan reservoir, the power demand curve, and the simulated solar power curve and wind power curve. With the retrofit of existing old units and the addition of 102 MW new units, the hydropower units of the proposed model can eliminate the requirement of 853 MW gas-fired power plants during peak-loading in the reference case, and the cost of power generation can be saved by 1403 Million-NTD per year. With the addition of 1099 MW pumped-storage hydropower units, the proposed model further enhances the peak-loading supporting and the cost for energy storage can be saved by 5155 Million-NTD per year when comparing with the battery storage system in the reference case. As for the desalination plant in the proposed model, the water production cost is still higher than the planned reservoir in the reference case due to its higher operation cost. However, when considering the total benefits from water and energy sector, the extra expenses of 1265 Million-NTD per year for desalination can be easily compensated and the proposed model can save more cost (5292 Million-NTD per year) than the reference case. Besides, the proposed model also enhances the security of water supply through the implementation of the desalination plant. Among the renewables considered in the aforementioned model, solar power and hydro power are all mature technologies and have been commercialized for many years; by contrast, the offshore wind power is still on its initial stage of development in Taiwan. To understand the trend of its development of technology and propose practical suggestions on the development strategy, we explored the development of offshore wind technology through the evaluation of patents granted by the United States Patent and Trademark Office and the European Patent Office before June 31, 2015. On establishing the landscape of offshore wind patents, the key trends of technical development were identified from the leading countries. Rather than a wind turbine itself, technologies related to engineering vessels, floating foundations, turbine installations, integration of multiple technologies, towers and mooring systems have been identified as the top priorities for the development; they occupied around 59 % of granted patents selected from USPTO and EPO. The cost decrease, improvement of equipment transport and improvement of installation are the most common targets to be achieved; they occupied 45 % and 50 % of the granted patents selected from USPTO and EPO, respectively. The trends of installing a wholly assembled wind turbine with specially designed support and transport systems have been observed in sectors of vessels and turbine installations; there are many patents of which the aim was to integrate other renewable technologies within an offshore wind-turbine platform to share the costs of production and construction. Although, since 2007, there are increasing numbers of patents related to floating foundations, no obvious tendency of a specific type of floating foundation and mooring system has been observed. With an increase number of overlapping patents between USPTO and EPO after 2013, the functions of those technologies mentioned above become similar. Based on the observation from the portfolio of patents from the leading countries and the current status of development in far-east countries, specialized development strategies for far-east countries are proposed in this research.