Disclosed herein is a method of using dissipation factor to control the purification of candle wax compositions, comprising purifying a modified natural oil until a dissipation factor ranging from 0.0001-0.0600 is achieved.

Disclosed herein is a method of using surface tension to control the manufacture of candles until a surface tension ranging from 20 to 30 dynes/cm is achieved.

Wax compositions are provided with improved properties for candles and candle jars. The candle wax composition includes a major amount of a foots oil and minor amount of a 600N slack wax. In one form, the foots oil is a 150N foots oil that is included in the composition at from 70 to 80 weight % of the composition and the 600N slack wax is included in the composition at from 20 to 30 wt % of the composition. The candle wax composition provides substantially no oil bleed and a smooth surface appearance with improved burning properties in terms of soot production, wax consumption, melt pool depth and flame height.

Proposed is a natural wax composition including 80 to 95 parts by weight of natural plant oil being a mixture of different kinds of oil, 3 to 20 parts by weight of wax, and 1 to 3 parts by weight of a preservative. Therefore, a natural wax composition can be provided that enables anyone to easily and conveniently mold Do-it-Yourself (DIY) scented candles even without the need for any expert knowledge for making scented candles. The natural wax composition can exhibit cream-type properties, leading to a reduction in liquefaction time compared to solid wax, thereby significantly reducing the manufacturing time of scented candles.

The present disclosure relates to the field of perfumery. In particular, the present disclosure provides fragrance dispensing emanating substrate and related methods for dispensing fragrance oil or liquid fragrance material into an ambient environment.

A candle including a composition of soy wax, cannabidiol oil, and fragrances, and a wick coated with a cannabidiol oil, positioned to extend partially therefrom the composition.

Described herein are wax formulations and candles that contain synthetic linear primary alcohols. The wax formulations and candles exhibit one or more desirable properties, such as good flame height, good fragrance character, low mineral impurity levels and little or no discoloration.

The present invention relates to the use of a composition containing 1,8-para-menthenethiol and 3-mercaptohexyl acetate, such as a plant extract and in particular an extract of timur (Zanthoxylum armatum), as odor-masking agent. It also relates to a deodorizing product in the form of an aerosol, candle, or electrical or wick fragrance diffuser, containing this composition.

The present technology generally relates to fragrance compositions comprising essential oils and products comprising the same. The present technology also relates to methods of using the fragrance compositions to reduce fatigue and improve executive brain function.

Systems, methods, and apparatuses for implementing cerebrum matter-powered light emissions in the context of a post-mortem ritual are described herein. For example, according to one embodiment there is a method for transforming cerebrum matter into projected light energy, including: obtaining brain matter from a deceased human body; processing the brain matter to generate a fuel-based extract by boiling the brain matter in a vessel to extract fat from the brain matter; burning the fuel-based extract to produce heat energy; capturing heat energy from burning the fuel-based extract via a thermoelectric generator positioned between the fuel-based extract and a chamber containing water to generate a voltage buildup, in which the voltage buildup is based on a temperature gradient difference between a first face of the thermoelectric generator juxtaposed with the burning fuel-based extract and a second face of the thermoelectric generator juxtaposed with the chamber containing water; maintaining the voltage buildup via maintaining the temperature gradient difference by replenishing the water in the chamber; transferring, via a cable, the voltage buildup to power a light source connected to the thermoelectric generator; powering the light source to emit light energy based on the voltage buildup; projecting the emitted light energy along a space flight path; and continuing to power the light source until the fuel-based extract is depleted. Other related embodiments are disclosed.