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    • 3. 发明申请
    • METHOD OF FORMING UNDERGROUND CAVERN AND DESALINIZATION PROCESS
    • 形成地下洞室和脱盐过程的方法
    • US20140262739A1
    • 2014-09-18
    • US14162653
    • 2014-01-23
    • LIGHTSAIL ENERGY, INC.
    • Danielle A. FONGEdwin P. BERLIN, JR.Stephen E. CRANEAndrea C. ASHWOODSebastian C. MANCHESTER
    • C02F1/14C02F1/04
    • C02F1/14C02F2103/08F24S10/13Y02A20/128Y02A20/212Y02E10/44
    • Embodiments relate to techniques for forming underground caverns, and also to desalinization processes that may be employed in conjunction therewith. Particular embodiments form a salt cavern by introducing heated water into a salt formation, followed by removal of the resulting brine to leave a salt cavern. The injected water is provided as a result of a desalinization process of the brine. Concentrated brine resulting from the desalinization process, is used to form a solar pond whose stored thermal energy provides the heat source for the injected water. The resulting underground cavern may be employed to house large volumes of materials such as pressurized natural gas, liquid hydrocarbons, or compressed gas for energy storage. Also disclosed is a particular desalinization process based upon a Regenerative Evaporative Distiller (RED) structure, which efficiently leverages low grade heat available from the solar pond by relying primarily upon a latent heat of evaporation and condensation.
    • 实施例涉及用于形成地下洞穴的技术,以及可以结合使用的脱盐过程。 特定的实施方案通过将加热的水引入盐形式中形成盐穴,然后除去所得盐水以留下盐穴。 作为盐水的脱盐过程的结果,注入的水是提供的。 由脱盐过程产生的浓盐水用于形成储存热能为注入水提供热源的太阳能池。 所得到的地下洞穴可用于容纳大量的材料,例如加压天然气,液体烃或用于储能的压缩气体。 还公开了基于再生蒸发蒸馏器(RED)结构的特定的脱盐方法,其通过主要依赖于蒸发和冷凝的潜热而有效地利用来自太阳能池的低等级热量。
    • 7. 发明申请
    • LIQUID PUMP
    • 液体泵
    • US20150354556A1
    • 2015-12-10
    • US14732620
    • 2015-06-05
    • LightSail Energy, Inc.
    • Danielle A. FONGAmirHossein POURMOUSA ABKENAREdwin P. BERLIN, JR.Philip Le Roux
    • F04B49/12F04B53/14F04B53/10F04B53/16F04B35/01F04B37/00
    • F04B49/125F04B9/042F04B23/06F04B35/01F04B37/00F04B53/10F04B53/14F04B53/16
    • Embodiments relate to architectures for pumps responsible for introducing liquid into cylinders reversibly configurable to perform gas compression or expansion. Particular embodiments maintain liquid flow rates in the face of the different pressure profiles (Δ-P) encountered during various portions of gas compression and gas expansion cycles. In some embodiments, the pump comprises multiple pumping elements per cylinder, at least one pumping element separable with a clutch and designed to spray/not spray during portions of compression/expansion cycles. Embodiments may employ phase difference(s) between the multiple pumping elements to introduce liquid in a desired manner. Mechanisms allowing adjustment in phase of multiple pumping elements, are also disclosed. The liquid may be introduced through sprayers arranged in rings in the cylinder, with rings (or partitions thereof) dedicated to spraying during different portions of compression and/or expansion. Embodiments may flow liquid to a gas compression/expansion cylinder via an intervening chamber of changeable volume.
    • 实施例涉及用于将液体引入可逆地配置为执行气体压缩或膨胀的气缸中的泵的结构。 特定实施例在面对在气体压缩和气体膨胀循环的各个部分期间遇到的不同压力分布(&Dgr; -P)时保持液体流速。 在一些实施例中,泵包括每个气缸的多个泵送元件,至少一个可与离合器分离并设计成在压缩/膨胀循环的部分期间喷雾/不喷雾的泵送元件。 实施例可以采用多个泵送元件之间的相位差来以期望的方式引入液体。 还公开了允许调节多个泵送元件的相位的机构。 液体可以通过布置在圆筒中的环中的喷雾器引入,其中专门用于在压缩和/或膨胀的不同部分期间喷涂的环(或其隔板)。 实施例可以经由可更换容积的中间室将液体流动到气体压缩/膨胀缸。