Abstract: The present invention belongs to the technical field of nanofiber emulsion, in particular to application of nanofiber emulsion to preparation of baked food. The nanofiber emulsion is nanofiber emulsion of a pomelo peel sponge layer, and is PCNF emulsion obtained by emulsification of a nanofiber emulsion stabilizer of the pomelo peel sponge layer and an oil phase; the amount of the nanofiber emulsion in the baked food is 18-90%, and the nanofiber emulsion replaces oil in traditional baked food; when the PCNF emulsion is added to the batter, bubble density of the batter is larger, and proper addition of the PCNF emulsion can reduce specific gravity of the batter, improve aeratability of the batter with soybean oil, reduce a baking loss rate and water activity, and prolong the shelf life of the cakes with the PCNF emulsion; hardness and chewiness of the cakes can be reduced.

Abstract: The present disclosure relates to a method of evaluating effective green water resources based on dynamic crop coefficients and a device thereof. The method includes constructing a SWAT model of an area to be measured; constructing a mathematical relation expression of vegetation potential transpiration, and introducing dynamic crop coefficients into the SWAT model; evaluating results obtained by operating the SWAT model according to the measured evaporation data and leaf area index monitoring data obtained in advance, and calibrating crop growth parameters and evapotranspiration parameters; judging evaporation effectiveness according to a land cover type and a dynamic coverage calculation method, and carrying out daily simulation to obtain a total amount of effective green water resources in the area to be measured.

Abstract: A main stream reservoir ecological modulation method considering incoming water from interval tributaries is provided. The method determines the contribution ratio of the incoming water from interval tributaries to first-day's water rising in a high-flow surge process and when to start ecological modulations of spawning ground sections, determines a river course routing method after a main stream and its tributaries joining and calibrating parameters, based on past hydrological data, performing river flow calculation on the discharge volume of upstream reservoirs and the flow after interval tributaries joining, and determines a main stream reservoir ecological modulation mode considering incoming water from interval tributaries.

Abstract: A main stream reservoir ecological modulation method considering incoming water from interval tributaries is provided. The method determines the contribution ratio of the incoming water from interval tributaries to first-day's water rising in a high-flow surge process and when to start ecological modulations of spawning ground sections, determines a river course routing method after a main stream and its tributaries joining and calibrating parameters, based on past hydrological data, performing river flow calculation on the discharge volume of upstream reservoirs and the flow after interval tributaries joining, and determines a main stream reservoir ecological modulation mode considering incoming water from interval tributaries.

Abstract: The present disclosure provides a design method for a distributed hydrological cycle model based on a multi-source complementary water supply mode, the method including the following steps: S1, nested hydrological response unit (HRU) division; S2, HRU attribute design; S3, design of a multi-source complementary water supply module; and S4, improvement on a SWAT model. Based on the Soil and Water Assessment Tool (SWAT) model, the present disclosure develops a distributed natural-artificial hydrological dynamic reciprocal simulation model. The model is endowed with the functions of simulating dynamic reciprocation of natural water cycle and artificial water cycle, and integration of development, utilization and regulation of water resources, thereby simulating a natural-artificial hydrological cycle based on modes of urban multi-source water supply and multi-source irrigation water supply.

Abstract: The invention relates to a process for the production of thermally-integrated hydrogen from a liquid hydrocarbon feedstock that contains sulfur-containing compounds that comprise at least one stage for heating the liquid hydrocarbon feedstock by indirect heat exchange with a hot stream, a stage for desulfurizing the heated hydrocarbon feedstock, a stage for evaporating the desulfurized hydrocarbon feedstock by indirect heat exchange with the hot stream that exits from the autothermal reformer, a stage for autothermal reforming of the hydrocarbon feedstock, and a stage wherein the carbon monoxide content in the hydrogen-rich gas that is produced is reduced in a reactor for converting carbon monoxide with water. The invention also relates to the hydrogen production installation that corresponds to this process.

Abstract: The invention relates to a process for the production of thermally-integrated hydrogen from a liquid hydrocarbon feedstock that contains sulfur-containing compounds that comprise at least one stage for heating the liquid hydrocarbon feedstock by indirect heat exchange with a hot stream, a stage for desulfurizing the heated hydrocarbon feedstock, a stage for evaporating the desulfurized hydrocarbon feedstock by indirect heat exchange with the hot stream that exits from the autothermal reformer, a stage for autothermal reforming of the hydrocarbon feedstock, and a stage wherein the carbon monoxide content in the hydrogen-rich gas that is produced is reduced in a reactor for converting carbon monoxide with water. The invention also relates to the hydrogen production installation that corresponds to this process.