An object of the present invention is to provide a novel solid phase peptide synthesis method for synthesizing a large amount of a peptide. Another object of the present invention is to provide a novel solid phase peptide synthesis method for synthesizing a high-purity long-chain peptide. Still another object of the present invention is to provide a novel solid phase peptide synthesis method causing fewer side reactions. The present invention relates to a method for producing a peptide, and the method comprises solid-phase synthesis of a peptide under stirring with a centrifugal stirrer having no impeller.

A resin container is configured to provide a photocurable resin to a three dimensional printing system. The three dimensional printing system includes a receptacle configured to provide the resin to a print engine. The resin container includes a housing enclosing an internal reservoir which contains an impeller. The resin container has a leading end and a trailing end relative to a direction of insertion or installation of the resin container into the receptacle. The leading end includes a fluid outlet extending downwardly from a first lateral location, an electrical connector extending downwardly from a second location, and a gear coupled to the impeller and extending downwardly from a third lateral location.

A multi-phase cosmetic composition mixing pack for mixing immiscible components of a multi-phase cosmetic composition such that they are temporarily miscible includes a container for holding the multi-phase cosmetic composition that has a first open end and a container longitudinal axis, and a mixing element disposed within the container and configured to be actuated for mixing immiscible components of the multi-phase cosmetic composition such that they are temporarily miscible, wherein the mixing element is limited to movement substantially along the container longitudinal axis when actuated.

The present invention relates to the field of biological and chemical transformation as well as physical and chemical trapping. More specifically, the invention relates to a new reactor arrangement for performing, by means of at least one solid reaction member, biological or chemical transformation, or physical or chemical trapping from or release of agents to, a fluidic medium. The reactor arrangement is comprised of an auxiliary reactor having a transformation device and a main reactor. The invention also provides an auxiliary reactor adapted for being connected to a main reactor, a method of using such a reactor arrangement, as well as a process involving the reactor arrangement.

A portable power shaker blender includes a mixing body is made of a high density polyethylene material, along with a base that includes a rechargeable battery and a motor. The blade assembly extends inwards into the interior of the mixing chamber and includes a central shaft with a pair of extending crossbars that terminate in a connecting pair of vertical members. An additional diagonal bar extends between a pair of the corners thus created. All of these bars are cylindrical in cross-section to encourage agitation. The cap of the power/shaker engages with the mixing body either through a friction fit or a screw top engagement, which includes a swivel top and a swivel top handle that is generally U-shaped and is able to receive a latching engagement, such as a latching or locking carabiner.

A batch or continuous mixer for mixing powders, immiscible liquids, or a powder with a liquid includes one or more vibrational energy applicators which propagate vibrational energy into the mixture, causing powders to flow like liquids and breaking up liquid droplets and powder clumps. In embodiments, the vibration frequency and amplitude are selected according to properties of the mixture components. Vibrations can be propagated through container walls, impellers, or other structures within the mixing container. Vibrated structures can be flexibly supported for enhanced propagation of the vibrations. Vibrational energy can be uniform throughout the container, or focused in a desired region. Ultrasonic energy can be simultaneously applied with acoustic energy.

A bowl liner for a mixing bowl of a stand mixer includes a shell and a rim secured an upper end of the shell. The shell is sized to be received in the mixing bowl, and is formed from an elastomeric material. The shell has a mixing chamber defined therein. The rim includes an outer perimeter surface that has a keyed surface section to locate the liner relative to the stand mixer.

A mixing unit has a stacked member having mixing elements that are stacked in a stacking direction and that extend in an extending direction, a first plate, and a second plate disposed opposite the first plate. The stacked member is sandwiched between the first plate and the second plate. Each of the mixing elements has first through holes. The second plate comprises an opening portion that communicates with the first through holes in the stacked member.

A blending apparatus is provided which includes a container defining a cavity having a center axis and a substantially rectangular cross section through the center axis. The blending apparatus further includes a lid to cover the cavity defined by the container, and an attachment to fit within the cavity and rotate about the center axis of the cavity. In some arrangements, a set of sides of the container defines (i) a substantially octagonal interior cross section through the center axis at a location adjacent a bottom of the container to prevent lodging of food products at the bottom of the container when the attachment rotates within the cavity; and (ii) a substantially square interior cross section through the center axis at a location further from the bottom of the container.