Abstract: The technology disclosed in this patent document can be used to implement an optical coherent tomography (OCT) system that combines a control of the probe light to the target sample with different optical aberration patterns in optically probing the target sample and an OCT imaging processing to enhance the OCT imaging quality by combining image signals from in-phase contributions from the probing with different optical aberration patterns while suppressing randomly phased contributions from scattering by the target sample.

Abstract: The invention relates to methods of plant enhancement comprising administration of a composition comprising microalgae biomass to improve seed germination rate, seed germination time, seedling emergence, seedling emergence time, seedling size, plant fresh weight, plant dry weight, utilization, fruit production, leaf production, leaf formation, leaf size, leaf area index, plant height, thatch height, plant health, plant resistance to salt stress, plant resistance to heat stress, plant resistance to heavy metal stress, plant resistance to drought, maturation time, yield, root length, root mass, color, insect damage, blossom end rot,-fruit quality, flowering, or sunburn.

Abstract: The technology disclosed in this patent document can be used to implement an optical coherent tomography (OCT) system that combines a control of the probe light to the target sample with different optical aberration patterns in optically probing the target sample and an OCT imaging processing to enhance the OCT imaging quality by combining image signals from in-phase contributions from the probing with different optical aberration patterns while suppressing randomly phased contributions from scattering by the target sample.

Abstract: The invention relates to compositions and methods for improving characteristics of plants and soil by administering an effective amount of a microalgae-based composition in low concentration applications.

Abstract: Methods of growing organisms in the Thraustochytriaceae family using a supply of at least one of acetate and acetic acid as an organic carbon source are described. Embodiments include using acetate or acetic acid in combination with other organic carbon sources and with a pH auxostat system.

Abstract: The present invention generally relates to agriculture and, more specifically, to biomass compositions and methods for decreasing bruising, increasing plant health, increasing soil health, increasing sweetness in fruits and/or decreasing needle-drop in conifer species.

Abstract: Methods of producing high purity palmitoleic acid esters from natural oils are disclosed. The natural oils may comprise plant oil, nut oil, microalgae oil, and fish oil. The methods of processing the natural oil comprise transesterification with ethanol as the reacting solvent to produce ethyl esters. Methods of producing a high purity fraction of Omega-3, 6, & 9 fatty acid esters from natural oils are also disclosed. The high purity fatty acid esters may be used in nutrition, cosmetic, and nutraceutical products.

Abstract: Methods of producing high purity palmitoleic acid esters from natural oils are disclosed. The natural oils may comprise plant oil, nut oil, microalgae oil, and fish oil. The methods of processing the natural oil comprise transesterification with ethanol as the reacting solvent to produce ethyl esters. Methods of producing a high purity fraction of Omega-3, 6, & 9 fatty acid esters from natural oils are also disclosed. The high purity fatty acid esters may be used in nutrition, cosmetic, and nutraceutical products.

Abstract: Methods and apparatus for culturing microorganisms are described, including culturing in mixotrophic culture conditions. A bioreactor array with multiple culture vessels with independently controllable inputs is used to culture similar cultures of microorganisms in which at least one parameter differs from other culture vessels in the bioreactor array.

Abstract: The present invention includes methods and apparatuses that utilize microchannel technology and, more specifically in exemplary form, producing hydrogen peroxide using microchannel technology. An exemplary process for producing hydrogen peroxide comprises flowing feed streams into intimate fluid communication with one another within a process microchannel to form a reactant mixture stream comprising a hydrogen source and an oxygen source such as, without limitation, hydrogen gas and oxygen gas. Thereafter, a catalyst is contacted by the reactant mixture and is operative to convert a majority of the reactant mixture to hydrogen peroxide that is withdrawn via an egressing product stream. During the hydrogen peroxide chemical reaction, exothermic energy is generated. This exothermic energy is absorbed by the fluid within the microchannel as well as the microchannel itself.

Abstract: The disclosed invention relates to a process for separating methane or nitrogen from a fluid mixture comprising methane and nitrogen, the process comprising: (A) flowing the fluid mixture into a microchannel separator, the microchannel separator comprising a plurality of process microchannels containing a sorption medium, the fluid mixture being maintained in the microchannel separator until at least part of the methane or nitrogen is sorbed by the sorption medium, and removing non-sorbed parts of the fluid mixture from the microchannel separator; and (B) desorbing the methane or nitrogen from the sorption medium and removing the desorbed methane or nitrogen from the microchannel separator. The process is suitable for upgrading methane from coal mines, landfills, and other sub-quality sources.