CN118451437A - Environmental Properties of amino resin composition - Google Patents
Environmental Properties of amino resin composition Download PDFInfo
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- CN118451437A CN118451437A CN202280084364.5A CN202280084364A CN118451437A CN 118451437 A CN118451437 A CN 118451437A CN 202280084364 A CN202280084364 A CN 202280084364A CN 118451437 A CN118451437 A CN 118451437A
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- resin composition
- amino resin
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Landscapes
- Compositions Of Macromolecular Compounds (AREA)
Abstract
A system for producing an amino resin composition associated with a digital asset is disclosed; a method for producing an amino resin composition associated with a digital asset; means for generating a digital asset; a computer-implemented method for generating a chemical pass; a computer program element for generating a digital asset; use of an amino resin composition associated with a digital asset; the use of digital assets; a product produced from the amino resin composition and associated with the digital asset; a digital asset comprising one or more decentralized identifiers and data related to environmental impact data; means for producing a product associated with the digital asset; and methods for producing a product associated with a digital asset.
Description
Technical Field
The present disclosure relates to a system for producing an amino resin composition associated with an amino resin composition pass or digital asset; a method for producing an amino resin composition associated with an amino resin composition pass or a digital asset; means for generating a pass or digital asset associated with the amino resin composition; a computer-implemented method for generating an amino resin composition pass; a computer program element for generating an amino resin composition pass or a digital asset; use of an amino resin composition associated with an amino resin composition pass or a digital asset; use of an amino resin composition pass or digital asset; a product produced from the amino resin composition and associated with an amino resin composition pass or digital asset; an amino resin composition; an amino resin composition pass or digital asset comprising one or more discrete identifiers and data related to environmental impact data; means for producing a product associated with an amino resin composition pass or a digital asset; and methods for producing products associated with amino resin composition passes or digital assets.
Background
In the supply chain, the environmental impact of each supply chain participant is of great concern. In particular in the chemical field, amino resin compositions have a wide range of applications and are supplied to different value chains. In such complex systems, transparency between the value chain participants is difficult to achieve.
Disclosure of Invention
In one aspect, a system for producing an amino resin composition associated with an amino resin composition pass or digital asset is disclosed, the system comprising:
-a chemical production network configured to produce the amino resin composition, wherein the amino resin composition is produced from one or more input materials by one or more chemical processes of the chemical production network, wherein the one or more input materials and/or the one or more chemical processes are associated with environmental attribute(s);
-a production handling device configured to generate the amino resin composition pass or digital asset by: providing a dispersion identifier associated with the produced amino resin composition and one or more environmental attributes of the one or more input materials and/or the one or more chemical processes;
Linking the decentralized identifier and the environmental attribute(s);
-optionally, the chemical production network or system is configured to provide the produced amino resin composition in association with the amino resin composition pass or digital asset.
In another aspect, a system for producing an amino resin composition associated with an amino resin composition pass or digital asset is disclosed, the system comprising:
-a chemical production network configured to produce the amino resin composition from one or more input materials by chemical process(s), wherein the one or more input materials and/or the chemical process(s) are associated with environmental attribute(s);
-a production operation device configured to generate the amino resin composition pass or digital asset by providing and/or linking a decentralized identifier associated with the amino resin composition and one or more environmental properties associated with the one or more input materials and/or the chemical process (es).
In another aspect, a method for producing an amino resin composition associated with an amino resin composition pass or digital asset is disclosed, wherein the method comprises:
-producing the amino resin composition from one or more input materials by one or more chemical processes of a chemical production network, wherein the one or more input materials and/or the one or more chemical processes are associated with environmental attribute(s);
-generating the amino resin composition pass or digital asset by: providing a dispersion identifier associated with the produced amino resin composition and one or more environmental attributes associated with the one or more input materials and/or the one or more chemical processes;
linking the decentralized identifier and the one or more environmental attributes;
-providing the produced amino resin composition in association with the amino resin composition pass or digital asset.
In another aspect, a method for producing an amino resin composition associated with an amino resin composition pass or digital asset is disclosed, wherein the method comprises:
-producing the amino resin composition from one or more input materials by one or more chemical processes of a chemical production network, wherein the one or more input materials and/or the one or more chemical processes are associated with environmental attribute(s);
-generating the amino resin composition pass or digital asset by providing and/or linking a decentralized identifier associated with the amino resin composition and one or more environmental properties of the one or more input materials and/or the chemical process (es).
In another aspect, an apparatus for generating a pass or digital asset associated with an amino resin composition, wherein the amino resin composition is produced from one or more input materials by one or more chemical processes of a chemical production network, wherein the one or more input materials and/or the one or more chemical processes are associated with environmental attribute(s), the apparatus comprising:
-a decentralized identity provider configured to provide a decentralized identifier associated with the produced amino resin composition and one or more environmental properties of one or more input materials and/or one or more chemical processes for producing the amino resin composition;
-an assigner configured to link the decentralized identifier and the environmental attribute(s);
-a pass provider configured to provide the amino resin composition pass or digital asset in association with the produced amino resin composition to, for example, a decentralized network, wherein the environmental attribute(s) associated with the amino resin composition are accessible to a consumer of the amino resin composition through the amino resin composition pass or digital asset.
In another aspect, a method is disclosed, such as a computer-implemented method for generating an amino resin composition pass or digital asset associated with an amino resin composition, wherein the amino resin composition is produced from one or more input materials by one or more chemical processes of a chemical production network, wherein the one or more input materials and/or the one or more chemical processes are associated with environmental attribute(s), the method comprising:
-providing a distributed identifier associated with the produced amino resin composition, one or more input materials and/or one or more environmental properties of one or more chemical processes for producing the amino resin composition;
-linking the decentralized identifier and the environmental attribute(s);
-providing the amino resin composition pass or digital asset in association with the produced amino resin composition to, for example, a decentralized network, wherein the environmental attribute(s) associated with the amino resin composition are accessible to a user of the amino resin composition through the amino resin composition pass or digital asset.
In another aspect, a computer element, such as a computer readable storage medium, a computer program, or a computer program product, is disclosed that comprises instructions that, when executed by a computing node or computing system, direct the computing node or computing system to perform the steps of the computer-implemented methods disclosed herein.
In another aspect, a computer element, such as a computer readable storage medium, a computer program, or a computer program product, is disclosed that comprises instructions that, when executed by an apparatus disclosed herein, direct the apparatus to perform steps that the apparatus disclosed herein is configured to perform.
In another aspect, an amino resin composition associated with an amino resin composition pass or digital asset produced according to the methods disclosed herein is disclosed. In another aspect, an amino resin composition associated with an amino resin composition pass or digital asset produced in accordance with the system disclosed herein is disclosed.
In another aspect, an amino resin composition associated with an amino resin composition pass or digital asset is disclosed, wherein the amino resin composition is produced from one or more input materials by one or more chemical processes of a chemical production network, wherein the one or more input materials and/or the one or more chemical processes are associated with environmental attribute(s), wherein the amino resin composition pass or digital asset includes a distributed identifier associated with the produced amino resin composition and a link to the environmental attribute(s) associated with the one or more input materials and/or the one or more chemical processes used to produce the amino resin composition.
In another aspect, an amino resin composition pass or digital asset produced according to the methods disclosed herein is disclosed. In another aspect, an amino resin composition pass or digital asset generated in accordance with the apparatus disclosed herein is disclosed.
In another aspect, a production system for producing a product from an amino resin composition associated with an amino resin composition pass or digital asset provided in accordance with the systems, devices, or methods disclosed herein is disclosed. In another aspect, a production method for producing a product from an amino resin composition associated with an amino resin composition pass or digital asset provided in accordance with the systems, devices, or methods disclosed herein is disclosed.
In another aspect, the use of an amino resin composition associated with an amino resin composition pass or digital asset disclosed herein for producing a product from an amino resin composition associated with the amino resin composition pass or digital asset is disclosed.
In another aspect, the use of an amino resin composition pass or digital asset as disclosed herein for generating a product pass or digital asset associated with a product produced from an amino resin composition associated with the amino resin composition pass or digital asset is disclosed. In another aspect, a method is disclosed for using a digital asset generated according to the methods disclosed herein for producing a product produced from an amino resin composition associated with the amino resin composition pass or digital asset.
In another aspect, an amino resin composition associated with a digital asset that includes a dispersed identifier associated with the amino resin composition and linked to one or more environmental properties of one or more input materials and/or one or more chemical processes used to produce the amino resin composition is disclosed.
In another aspect, use of an amino resin composition associated with an amino resin composition pass or digital asset for producing a product from the amino resin composition and associating the amino resin composition pass or digital asset with the product produced from the amino resin composition is disclosed. In another aspect, use of an amino resin composition associated with an amino resin composition pass or digital asset for producing a product from the amino resin composition and deriving the product pass or digital asset from the amino resin composition pass or digital asset is disclosed. In another aspect, a method is disclosed for using an amino resin composition associated with a digital asset to produce a product from an amino resin composition as disclosed herein and deriving the digital asset associated with the product from the amino resin composition pass or amino resin composition digital asset.
Any of the disclosure and embodiments described herein relate to the methods, systems, chemical products, amino resin compositions, amino resin composition passes or digital assets, and computer elements listed above and below. Advantageously, the benefits provided by any embodiment and example apply equally to all other embodiments and examples. Examples
Embodiments of the present disclosure will be summarized below by way of examples and/or embodiments. It should be understood that the present disclosure is not limited to the embodiments and/or examples.
Determining, generating includes initiating or causing the determining, generating. The providing includes "initiate or cause access, determination, generation, transmission or reception". "initiate or cause an action" includes any processing signal that triggers a computing node to perform the corresponding action.
The methods, systems, amino resin compositions, amino resin composition passes or digital assets, and computer elements disclosed herein provide an efficient, secure, and robust way for sharing or exchanging environmental impact data across different participating nodes in a value chain. In particular, by providing data specific to amino resin compositions via amino resin composition passes or digital assets, environmental impact can be shared and made transparent from amino resin compositions to products produced from these amino resin compositions. The amino resin composition pass or digital asset enables secure data exchange because data access may be controlled by a provider of the amino resin composition (e.g., an entity providing the amino resin composition). The data assets exchanged can be specific to an amino resin composition that is produced and tailored to the needs of the consumer of the user of the amino resin composition. In this way, tracking and tracing of amino resin compositions can be improved by safely providing environmental impact data in a diverse and highly complex value chain. Thus, the environmental impact of the amino resin composition may be tracked, thereby making the value chain participants simpler, more efficient, and sustainable in processing the amino resin composition.
According to the present invention, the amino resin composition preferably comprises or consists of one or more amino resins. In this regard, the term "resin" may include resins and gums.
According to one aspect of the invention, an amino resin composition associated with a composition pass or digital asset includes or consists of one or more urea-formaldehyde (UF) based substances, and/or one or more melamine-formaldehyde (MF) based substances, or copolymers thereof.
Preferred UF-based materials include or consist of UF condensation products such as UF resins and/or UF gums.
Preferred MF-based materials include or consist of MF condensation products (such as MF resins and/or MF gums).
The preferred copolymers are melamine-urea based materials. The MUF-based material preferably comprises or consists of a MUF condensation product, such as a MUF resin and/or a MUF gum.
The chemical production network may include one or more chemical and/or mechanical processes. The chemical production network may produce one or more output materials by chemical and/or mechanical processing. The chemical production network may include multiple types of production processes for producing one or more output materials from one or more input materials. The chemical production network may produce one or more output materials from the input material(s) provided to the chemical production network. Chemical production networks may include complex production networks that produce multiple chemical products via multiple production processes. The chemical production network may include connected, interconnected, and/or unconnected production process (es). The chemical production network may comprise a composite network or an integrated network.
The chemical production network may include identity preserving or isolated production process (es). In this context, identity preservation or isolation may refer to preserving or isolating environmental attribute(s) of input material(s) during production process (es). An example is the use of non-fossil (e.g., renewable or recycled) input materials to produce one or more amino resin compositions having no fossil content. A further example is the use of fossil input material(s) to produce one or more amino resin compositions having a fossil content. Chemical production networks may include non-identity preserving or non-isolated production processes. In this context, non-identity preserving or non-isolating may refer to mixing non-fossil input material(s) with fossil input material(s) to produce amino resin composition(s). For example, fossil and renewable input materials can be mixed to produce amino resin composition(s) having a fossil content and a renewable content.
The chemical production network may include one or more production processes having a plurality of production steps. The production steps included in the chemical network may be defined by physical system boundaries of the chemical production network. The system boundaries may be defined by the location and/or control of a production process or step. The system boundaries may be defined by the sites of a chemical production network. The system boundaries may be defined by the production process(s) or step(s) commonly controlled by an entity or entities. The system boundaries may be defined by a value chain having staggered production process(s) or step(s) until a final chemical product is formed, which may be controlled jointly or separately by multiple entities. The chemical production network may include waste collection, classification steps, recovery steps (such as pyrolysis), cracking steps (such as steam cracking), separation steps for separating intermediates of one process step, and further processing steps for converting such intermediates into output material(s) (particularly the produced amino resin composition (s)) that exit the system boundaries of the chemical production network. The input material(s) may enter the physical system boundaries of the chemical production network. Entry point(s) of the chemical production network may be marked by entry of the input material(s) into the chemical production network or system boundary of the chemical network. The output material(s), particularly the amino resin composition(s) produced, may leave the physical system boundaries of the chemical production network. The exit point(s) of the chemical production network may be marked by the exit of the output material(s), in particular the produced amino resin composition(s), from the chemical production network or system boundary of the chemical network.
The chemical production network may include one or more production chains for producing the amino resin composition. The production chain(s) used to produce the amino resin composition may be interconnected. The production chain(s) used to produce the amino resin composition may be interconnected with the production chain(s) used to produce other output material(s). The production chain(s) for producing the amino resin composition may include production chain(s) for producing intermediates used in producing the amino resin composition. The production chain(s) used to produce the amino resin composition may use input material(s) provided by chemical network(s) used to produce intermediates that are useful in producing the amino resin composition.
One or more input materials may be provided to a chemical production network to produce one or more output materials, particularly the amino resin composition(s). The output material(s), particularly the amino resin composition(s), may be produced from the input material(s) by one or more chemical processes of a chemical production network. The input material may include any input material that enters the chemical production network at any entry point. The input material may comprise organic or inorganic input material(s). The input material may be a precursor product, intermediate material, feedstock or raw material for producing one or more output materials, in particular the amino resin composition(s). The input material may be fed to a chemical production network to produce one or more output materials, in particular the amino resin composition(s). The input material may be fed to a chemical production network that includes one or more production processes having a plurality of process steps. The input material may be fed to the chemical production network at the beginning of the production process or at any intermediate stage of the production process. Input materials into a chemical production network may be used to produce one or more output materials, particularly amino resin composition(s).
The input material may be associated with an input material identifier. The input material identifier may include any identifier uniquely associated with the input material. The input material identifier may be associated with a physical entity of the input material. The input material identifier may be associated with a single batch of input material. The input material identifier may be associated with a set of input materials. The identifier may be associated with a plurality of physical entities of the input material. The input material identifier may be associated with a continuous or semi-continuous input material stream. The input material identifier may be associated with an input material stream, for example, over a particular period of time or from a particular vendor. The input material identifier may be linked or otherwise connected to one or more environmental attributes.
Environmental attributes may refer to characteristics related to environmental impact. Such characteristics may be the characteristics of the input material(s), the chemical process(s), the chemical production network(s), and/or the amino resin composition(s). The environmental attribute may be indicative of the input material(s), the chemical process(s), the chemical production network(s), and/or the environmental performance of the amino resin composition(s). The environmental properties may be derived from the input material(s), the chemical process(s), the chemical production network(s), and/or the characteristics of the amino resin composition(s). The environmental attribute may be associated with the environmental impact of the input material(s), the chemical process(s), the chemical production network(s), and/or the amino resin composition(s) at any stage of the lifecycle of the input material(s) and/or the amino resin composition(s). These stages may include providing raw materials, producing chemical products (such as intermediate or final products), producing discrete products by using chemical products, using chemical products or discrete products, treating scrap products, recovering scrap products, disposing scrap products, reusing components of scrap products, or any subset of stages. Environmental attributes may be specified or may be derived from any activity of one or more entities participating in any stage of the lifecycle of one or more materials or products.
Environmental attributes may include one or more characteristics that may impart an environmental impact to the input material(s), chemical process (es), chemical production network(s), and/or amino resin composition(s). Environmental attributes may include environmental, technical, recyclability, or recycling feature(s) associated with the environmental impact of the input material(s), chemical process(s), chemical production network(s), and/or amino resin composition(s).
Environmental attributes may include one or more characteristics that may impart an environmental impact to the input material(s), chemical process (es), chemical production network(s), and/or amino resin composition(s). Environmental attributes may include environmental, technical, recyclability, or recycling feature(s) associated with the environmental impact of the input material(s), chemical process(s), chemical production network(s), and/or amino resin composition(s). One or more environmental attributes may be imparted to the environmental impact of the amino resin composition. The one or more environmental attributes may relate to the environment(s), technology, recyclability, and/or supplemental risk feature of the amino resin composition.
The environmental feature(s) may specify or quantify an ecological criterion associated with the environmental impact. The environmental feature(s) may be or may be derived from measurements taken during a lifecycle. Environmental characteristics may be determined at any stage of the life cycle and may characterize the environmental impact within or up to that stage. For example, the environmental feature(s) may include carbon footprint, greenhouse gas emissions, resource usage, air emissions, ozone depletion potential, water pollution, noise pollution, energy consumption, waste reduction, or eutrophication potential. For example, the environmental feature(s) may include product features associated with the production of a product (e.g., bio-based, plant-based, animal-based, halogen-free, fluorine-free, vegetarian, halal, kosher, palm oil-free, natural, non-toxic, volatile organic compound-free, or any combination thereof).
The technical feature(s) may specify or quantify performance associated at least indirectly with environmental impact. The technical feature(s) may be or may be derived from measurements taken during a lifecycle. The technical features may be determined at any stage of the life cycle and may characterize performance within or up to that stage. For example, technical feature(s) may include: chemical composition data; raw material composition, such as biobased or recycled input material content specifying, for example, x% non-fossil and y% fossil content; a bill of materials; product specification data such as product purity, product form (indicating its effect on dust formation/release); secure data; product extractability; migrating data; toxicology data or ecotoxicology data; product component data; secure data; applying the characteristic data; an application description; quality data or any combination thereof.
The cyclic feature(s) may specify or quantify lifecycle features associated with cyclic usage. The cyclical feature(s) may be or may be derived from measurements taken during a lifecycle. The cyclical feature(s) may be or may be derived from cyclical data recorded in one or more previous lifecycles (including reuse). The cyclical feature(s) may be determined at any stage of the lifecycle and may characterize the reuse or recycling performance within or up to that stage. For example, the cyclical feature(s) may include recovery data, reuse efficiency, recovery rate, recovery cycle, reuse performance, reuse quality, or any combination thereof.
The recyclability feature(s) may specify or quantify lifecycle features associated with recycling. The recyclability feature(s) may include the composition of the material, including ingredients specifically tailored to render the material suitable for recycling. The recyclability feature(s) may be or may be derived from measurements taken during a lifecycle. The recyclability feature(s) may be or may be derived from recycling data recorded in one or more previous lifecycles. The recyclability characteristics may be determined at any stage of the life cycle and may characterize the recycling performance within or up to that stage. For example, the recyclability feature(s) may include recycling data, number of recycles, composition of recycles, quality of recycles, composition of waste streams, quality of waste streams, or any combination thereof.
In one embodiment, an amino resin composition pass or digital asset associated with an amino resin composition may include mass balance environmental attributes related to the input material. The mass balance environmental properties may include environmental properties of the input material used to produce the amino resin composition, which are tracked and may be imparted to the amino resin composition by mass. The environmental impact of the input material(s) may be determined based on the input material(s) used to produce the amino resin composition in the chemical process(s). For example, the bio-based, renewable, and/or recycled content of the input material(s) used to produce the amino resin composition may be tracked. Further, for example, the castor oil or palm oil content of the input material(s) used to produce the amino resin composition may be tracked.
Further, for example, characteristics related to the environmental impact of the input material (including RSPO palm oil, palm-free oil, or castor oil) may be tracked. Further, for example, the characteristics of the chemical process (es) used to produce the amino resin composition may be tracked. Examples of tracked process characteristics related to environmental impact include water consumption, CO 2 emissions and/or greenhouse gas (GHG) emissions, waste production, mixed material production, recovery design, energy consumption, processing characteristics (such as less waste or less characteristic loss). These characteristics may be tracked based on certificates of the certification authorities. These characteristics may be tracked based on inherent physical characteristics derived from the measurements.
In one embodiment, the produced amino resin composition is linked to a dispersed identifier that physically identifies the produced amino resin composition. The production run may be configured to provide a distributed identifier associated with a physical entity of the produced amino resin composition. The production handling device may be configured to link the dispersed identifier to a physical identifier of the produced amino resin composition. The production handling device may be configured to assign a decentralized identifier to a physical identifier associated with the produced amino resin composition. The production handling device may be configured to assign the decentralized identifier to a physical identifier that is physically connected to the produced amino resin composition.
In one embodiment, the distributed identifier relates to data associated with at least one product produced from the amino resin composition, wherein one or more environmental attributes associated with the at least one product are derived from one or more environmental attributes associated with the amino resin composition. The one or more environmental properties associated with the amino resin composition may be associated with one or more input materials and/or chemical process (es) used to produce the amino resin composition. The dispersed identifier may relate to any identifier uniquely associated with the amino resin composition. The dispersed identifier may be associated with a physical entity of the amino resin composition. The dispersion identifier may relate to a single batch of the amino resin composition. The dispersion identifier may be associated with a set of amino resin compositions. The identifier may relate to a plurality of physical entities of the amino resin composition. The dispersed identifiers may be associated with a continuous or semi-continuous stream of amino resin composition. The identifier may relate to, for example, a flow of the amino resin composition over a particular period of time or from a particular vendor.
In one embodiment, the one or more environmental properties associated with the amino resin composition(s) are provided by at least one balance account configured to store the environmental property(s) associated with the input material(s). The inbound distributor may be configured to distribute one or more environmental attributes associated with the input material(s) to at least one balance account, for example, as the input material enters a chemical production network. The balance account may be associated with a corresponding environment attribute type. The outbound assigner may be configured to assign at least one environmental attribute from at least one balance account associated with the respective environmental attribute to the decentralized identifier. One or more environmental attributes may be assigned to the at least one decentralized identifier. Assignment may include deallocating one or more environmental attributes from a balance account associated with the respective environmental attribute type. By using a balance account, the environmental properties of the input material can be reliably tracked and assigned to the amino resin composition.
In one embodiment, the one or more environmental properties associated with the amino resin composition(s) are provided by at least one balance account configured to store the environmental property(s) associated with the input material(s). Balancing accounts may involve storage structures associated with metadata (such as an environmental attribute type). For example, the balance account may be associated with metadata indicating whether the environmental attribute type is reclaim content or bio-based. The inbound distributor may be configured to distribute one or more environmental attributes to at least one balance account associated with the respective environmental attribute, for example, as the input material enters the chemical production network. The balance account may be associated with a corresponding environment attribute type. One or more environmental attributes associated with the input material may be assigned to a balance account associated with the respective environmental attribute type. The outbound assigner may be configured to assign or link at least one environmental attribute from at least one balance account associated with the respective environmental attribute type to the decentralized identifier. This may include deallocating one or more environmental attributes from the balance account associated with the corresponding environmental attribute type. By using balanced accounts, environmental attributes can be tracked throughout the chemical production network. In this way, the environmental properties can be separated from the material flow. The assignment of environmental attribute(s) to the chemical production network may be performed on a mass balance basis. In this method, the total mass of the input material and the amino resin composition is balanced and the imparting of the corresponding environmental attribute(s) associated with the input material and the amino resin composition.
In one embodiment, the one or more environmental attributes are associated with at least one characteristic related to environmental impact of the one or more input materials and/or chemical process (es). The one or more environmental properties may specify environmental characteristics of the input material(s) used to produce the amino resin composition, and/or the one or more environmental properties may specify environmental characteristics of the chemical process(s) used to produce the amino resin composition. The one or more environmental attributes may be generated from environmental characteristics of the input material(s) used to produce the amino resin composition, process data associated with chemical processing of the input material(s), and/or energy data associated with energy consumption of the chemical processing. The one or more environmental attributes may include a recovery content associated with the input material(s) and being dispensed or dispensable to the amino resin composition(s), a renewable content associated with the input material(s) and being dispensed or dispensable to the amino resin composition(s), and/or a product carbon footprint associated with the amino resin composition(s).
In one embodiment, the production handling device is configured to collect environmental attributes associated with the produced amino resin composition before, during and/or after production of the amino resin composition by the chemical production network. The environmental attribute associated with the amino resin composition produced may relate to the input material(s). The environmental properties associated with the input material may be provided before, during, and/or after the amino resin composition is produced by the chemical production network. Environmental attributes associated with the input material may be assigned to at least one balance account before, during, and/or after the amino resin composition is produced via the chemical production network. Environmental properties associated with the produced amino resin composition may relate to environmental characteristics generated from process data associated with chemical processing of the input material(s) and/or energy data associated with energy consumption of the chemical processing. Environmental attributes associated with the produced amino resin composition may be produced before, during, and/or after the amino resin composition is produced by the chemical production network. Process data associated with chemical processing of the input material(s) and/or energy data associated with energy consumption of the chemical processing may be collected before, during, and/or after production of the amino resin composition.
In one embodiment, an amino resin composition pass or digital asset may include a decentralized identifier associated with an amino resin composition and one or more environmental attributes linked to the decentralized identifier. One or more environmental attributes may be linked to a distributed identifier included in the amino resin composition pass or digital asset. One or more environmental attributes may be stored in or associated with a database of the manufacturer of the amino resin composition for access by any consumer of the amino resin composition. One or more environmental attributes may be stored in or associated with a database of the amino resin composition producer, for example, for delivery to the consumer of the amino resin composition upon access or upon provision of the amino resin composition. The dispersion identifier may include any unique identifier uniquely associated with the amino resin composition producer and the amino resin composition data (e.g., environmental attributes). The decentralized identifier may include a Universally Unique Identifier (UUID) or a Digital Identifier (DID). The decentralized identifier may be issued by a centralized or decentralized identity issuer. The decentralized identifier may be linked to authentication and/or authorization information. Access to the amino resin composition data may be controlled by the amino resin composition producer via the dispersion identifier and its unique association with the amino resin composition producer and the amino resin composition data (e.g., environmental attributes). This is in contrast to a centralized organization scheme in which identifiers are provided by such a centralized organization and access to data is controlled by such a centralized organization. In this context, decentralized refers to the use of the identifier being controlled by the data owner (such as the amino resin composition producer) at the time of implementation.
The dispersion identifier may be uniquely associated with the amino resin composition or with a physical entity of the amino resin composition, such as shipping to a consumer of the amino resin composition after packaging. The decentralized identifier may be unique to one or more environmental attributes. The amino resin composition pass or digital asset may include one or more digital representations that point to amino resin composition data that includes or point to a portion of the environmental attribute(s). The digital representation may include at least one interface to a data providing service. It may further comprise at least one interface to a data consumption service. It may comprise an endpoint for data exchange or sharing (resource endpoint) or an endpoint for service interaction (service endpoint), which is uniquely identified via a communication protocol. The digital representation(s) pointing to the amino resin composition data or a portion thereof may be uniquely associated with the dispersion identifier.
The amino resin composition pass or digital asset may include or be connected to a digital representation of the amino resin composition data, such as environmental attribute(s). The digital representation may include a representation for accessing the amino resin composition data, such as the environmental attribute(s) or a portion thereof. The digital representation may include a representation of amino resin composition data, such as environmental attribute(s). The amino resin composition pass or digital asset may include or be connected to data related to amino resin composition data such as environmental attribute(s), authentication information, and a dispersion identifier. The data related to the amino resin composition data (such as environmental attribute (s)) may include a digital representation of the amino resin composition data (such as environmental attribute (s)).
Drawings
The disclosure will be further described with reference to the accompanying drawings:
FIG. 1 schematically illustrates an example of a chemical production network that is combined with a production operating system that includes an attribute management system to produce one or more output materials from one or more input materials.
Fig. 2 schematically illustrates an example of an output material imparting environmental properties of the input material to a chemical production network.
Fig. 3 schematically illustrates an example of an output material imparting input material and environmental properties of a chemical process to a chemical production network.
Fig. 4 schematically illustrates another example of a method or apparatus for providing environmental attributes associated with output material to a user of the material as a data consumer via a decentralized network.
FIG. 5 schematically illustrates an example of a method or apparatus for providing environmental properties of output materials across a value chain via a decentralized network.
Fig. 6A schematically illustrates an example of a chemical production network for producing an amino resin composition in the form of urea-formaldehyde (UF) resin and/or UF gum associated with a digital asset.
Fig. 6B schematically illustrates an example of a chemical production network for producing an amino resin composition in the form of melamine-formaldehyde (MF) resin and/or MF gum associated with a digital asset.
Detailed Description
FIG. 1 illustrates an example of a chemical production network 102 that is combined with a production operating system 106 that includes an attribute management system to produce one or more output materials, particularly amino resin composition(s) 104, from one or more input materials 100.
To produce one or more output materials, particularly the amino resin composition(s) 104, different input materials 100 may be provided as physical inputs to the chemical production network 102. The physical input material(s) 100 and the output material(s) (particularly the amino resin composition(s) 100, 104) may be associated with one or more characteristics related to environmental impact. The characteristics associated with the environmental impact may be digitized in the form of environmental attributes, such as the recycled content or biobased content of the input material. The production operating system 106 may be configured to acquire such environmental attributes and track them throughout the chemical production network 102 from the input material 100 to the output material(s), particularly the amino resin composition(s) 104.
The chemical production network 102 may include a plurality of interrelated processing steps. The chemical production network 102 may be an integrated chemical production network 102 having interconnected production chains. The chemical production network 102 may include a plurality of different production chains having at least one common intermediate product. The chemical production network 102 may include multiple stages of a chemical value chain. Chemical production network 102 may include production, refining, processing, and/or purification of gas or crude oil. The chemical production network 102 may include a steam cracker or a syngas facility that is connected to a plurality of production chains that output chemical products 104 from the effluent of such a facility. The chemical production network 102 may include a plurality of production chains that export one or more export materials, particularly amino resin composition(s), from one or more import materials 100. The chemical production network 102 may include a multi-layered chemical value chain. The chemical production network 102 may include an arrangement of production sites that are physically interconnected. The production sites may be located at the same location or at different locations. In the latter case, the production sites may be interconnected by a dedicated transportation system such as a pipeline, a supply chain vehicle (e.g., truck), a supply chain ship, or other cargo conveyance.
The chemical production network 102 may chemically convert the input material 100 into one or more output materials, particularly the amino resin composition(s) 104. The chemical production network 102 may convert the input material 100 into one or more output materials, particularly the amino resin composition(s) 104, by way of chemical conversion.
The input material 100 may be fed to the chemical production network 102 at any entry point. The input material 100 may be fed to the chemical production network 102 at the beginning of the chemical production network 102. For example, the input material 100 may constitute a feedstock for a steam cracker. The input material 100 may include non-fossil input materials (such as bio-based or recycled materials) and/or fossil input materials for use in the manufacture of chemical intermediate and chemical output material(s), particularly the amino resin composition(s) 104.
The chemical production network 102 may include a plurality of production steps. The production steps included in the chemical production network 102 may be defined by system boundaries of the chemical production network 102. The system boundaries may be defined by the location or control of the production process. The system boundaries may be defined by the sites of the chemical production network 102. The system boundaries may be defined by a production process commonly controlled by an entity or entities. The system boundaries may be defined by a value chain with staggered production processes, which may be controlled separately by multiple entities, until the final product is formed. The chemical production network 102 may include waste collection and sorting steps, recovery steps (such as pyrolysis), cracking steps (such as steam cracking), separation steps for separating intermediates of one process step, and further processing steps for converting such intermediates into output material(s) (particularly amino resin composition(s) 104) that exit the system boundaries of the chemical production network 102.
The production operating system 106 of the chemical production network 102 may be configured to monitor and/or control the chemical production network 102 based on operating parameters of different processes. One process step monitored and/or controlled may be the feeding of the input material 100 or the release of the output material(s), particularly the amino resin composition(s) 104. Another process step that is monitored and/or controlled may be the registration of environmental attributes associated with the input material 100 entering the system boundary of the chemical production network 102. Yet another process step monitored and/or controlled may be to impart environmental properties to the output material(s) produced via the chemical production network 102, particularly the amino resin composition(s) 104. Yet another process step that is monitored and/or controlled may be the management of environmental properties associated with the input material 100 and the output material(s) (particularly the amino resin composition(s) 104) of the chemical production network 102.
Production operating system 106 may be configured to register inbound environment attributes and assign outbound environment attributes. The production operating system 106 may be configured to access data related to the input material 100, process, and/or output material(s) (particularly the amino resin composition(s) 104) used in the chemical production network 102. For example, the production operating system 106 may be configured to register the recovered content or biobased content of one or more input materials 100 used in the chemical production network 102 as an environmental attribute. Production operating system 106 may be configured to assign environmental attributes to at least one balance account associated with the reclaimed content or biobased content of input material 100. Production operating system 106 may be configured to assign at least a portion of the environmental attributes from the at least one balance account to at least one output material, in particular to amino resin composition(s) 104.
The production operating system 102 may be configured to process environmental attributes associated with the input material(s) 100 and the output material(s) (particularly the amino resin composition(s) 100/104) of the chemical production network 102. For example, the production operating system 106 may be configured to determine environmental attributes associated with the use of the input material 100 that affect environmental characteristics of the chemical production network 102 and the output material(s) (particularly the amino resin composition(s) 104) produced by the chemical production network 102. Further, in particular, production operating system 102 may be configured to determine environmental properties associated with output material(s), particularly amino resin composition(s) 104. As such, production operating system 102 may be configured to store environmental attributes in or extract environmental attributes from the balance account. Thus, environmental attributes may be considered credits that may be deposited into or deducted from an account associated with the input material and output material(s) (particularly the amino resin composition (s)) of the chemical production network 102. In this way, environmental impact of production can be tracked and/or traced.
In chemical production network 102, multiple value chains may be linked. In addition, different input materials 100 or chemical processes that affect the environmental characteristics of the output material (particularly the amino resin composition(s) 104) produced by the chemical production network 102 may be used. Examples of such input materials 100 that affect at least one environmental characteristic of the output material(s) (particularly the amino resin composition(s) 104) produced from the input material 100 are recycled, renewable, or bio-based input materials 104. Examples of chemical processes that affect environmental characteristics include chemical processes that use environmentally friendly techniques such as carbon capture, carbon utilization, or heat pumps.
Due to the processing of chemicals in continuous or semi-continuous production and the complexity of the chemical production network 102, traceability of the input material throughout the network may be hindered. In this case, equivalent environmental attributes representing the impact on the environmental characteristics of the output material(s) (particularly the amino resin composition(s) 104) produced by the chemical production network may be assigned to the balance account and assigned to the output material(s) of the chemical production network 102, particularly the amino resin composition(s) 104. Thus, the environmental attribute may be decoupled from the physical material flow within the chemical production network 102. The decoupling may be based on a mass balance model, i.e. the equivalent weight assigned to one or more output materials, in particular the amino resin composition(s), cannot exceed the equivalent weight provided by the input material or process. If an equivalent has been assigned to a virtual account of one environmental attribute type, it may not be assigned again to another virtual account of this environmental attribute type. The environmental attribute types may be recycled, bio-based, renewable, and the like. The environmental attribute may be provided in the form of a digital asset attached to a physical entity of the amino resin composition or an amino resin composition pass.
Fig. 2 schematically illustrates an example of imparting environmental properties associated with an input material 100 to an output material(s) (particularly amino resin composition(s) 104) of a chemical production network 102.
As shown in FIG. 1, the chemical production network 102 and the operation of the chemical production network 102 may be monitored and/or controlled by the production operating system 106. The production operating system 106 may be configured to track environmental attributes from the input material 100 fed to the chemical production network 102 to the output material(s) (particularly the amino resin composition(s) 104) produced by the chemical production network 102. For tracking, the operating system 106 may be configured to register environmental attributes associated with the input material 100 provided to the chemical production network 102 and to impart the environmental attributes to the output material(s) produced by the chemical production network 102, particularly the amino resin composition(s) 104.
An input material 100, such as pyrolysis oil, bio-naphtha, or biogas, may be provided to a chemical production network 102. The input material 100 may enter a chemical production network 102, such as a steam cracker or syngas facility, at an entry point. The input material 100 may be used in a chemical production network 102 to produce one or more output materials, particularly amino resin composition(s) 104, from the input material 100. Output material(s), particularly amino resin composition(s) 104, may be provided at an exit point of chemical production network 102. Further output material(s) may be MDI, TDI, PA, EPS, PC, polyol, caprolactam, adipic acid, HMD, polyamide.
Upon entry of the input material 100, the input material data 108 may be provided to a computing interface of the production operating system 106 via a communication network. A data provider (such as a QR code reader) may be configured to provide material data 108 related to one or more input materials 100 and corresponding environmental attributes 108 to a computing interface configured to assign environmental attributes associated with the input materials 100. The material data 108 may include an input material identifier and environmental attributes associated with the input material 100. The input material identifier may be associated with a physical entity of the input material 100 entering the chemical production network 102. The material data may be provided at, before, or after the entry point provides one or more input materials to the chemical production network 102.
The input material identifier may be linked to the environmental attribute(s) associated with the respective input material(s) 100, the amount of input material 100, and a certificate certifying the environmental attribute(s). The amount of input material may be a measured amount of input material 100 fed to a facility or storage device of chemical production network 102 for producing one or more output materials (particularly amino resin composition(s) 104) from input material(s) 100. The input material identifiers associated with the respective input materials 100, the environmental attribute(s) associated with the respective input material(s) 100, and the amount of input material(s) 100 provided to the chemical production network 102 may be provided to the production operating system 106. Such data may be provided via a communication network upon entry into chemical production network 102 or may be communicated from a computing system to production operating system 106.
The inbound distributor 110 may be configured to distribute one or more environmental attributes to at least one balance account 112 associated with the respective environmental attribute. For example, one balance account 112 may relate to environmental attributes from recycled material, while another balance account 112 may relate to environmental attributes from bio-based material. The balance account may be associated with a corresponding environmental attribute type (such as bio-based or recycled). Based on such associations, a balance account associated with the environmental attribute type of the respective input material 100 may be selected. The environmental attribute may be assigned to the selected balance account. For example, an account 112 for reclaiming material may be selected and environmental attributes may be assigned to such an account 122.
To assign, one or more environmental attributes may be converted to balance units and these balance units may be assigned to balance account 122. The conversion may be based on conversion factors such as mass, weight, carbon atoms, hydrogen atoms, methane equivalent, or any other suitable measure for quantifying the environmental impact of environmental attributes. Thus, the conversion factor may take into account the difference between the production of a chemical product from a conventional input material(s) and the production of a chemical product from an unconventional input material(s) or the production of a chemical product from a mixture of conventional and unconventional input materials. The conversion factor may be related to differences in chemical and/or physical properties of the conventional and non-conventional input material(s).
By using the balance account 112, it may be ensured that the environmental properties of the input material 100 are only used to assign to the amino resin composition 104 once. This way, repeated counting of inputs or outputs is avoided to ensure that positive environmental effects can be reliably tracked and assigned to the amino resin composition 104.
The identifier provider 116 may be configured to provide an amino resin composition identifier associated with an amino resin composition produced by the chemical production network 102 and provided at an exit point of the chemical production network 102.
The outbound assigner 114 may be configured to assign at least one environmental attribute from the at least one balance account 112 associated with the respective environmental attribute to the amino resin composition identifier ID2. One or more environmental attributes may be assigned to the at least one amino resin composition identifier ID2. Assignment may include deallocating one or more environmental attributes from the balance account 112 associated with the corresponding environmental attribute type. The assignment may include converting one or more balance units to one or more environmental attributes.
Assigning at least one environmental attribute associated with the input material(s) to the amino resin composition(s) may include linking the amino resin composition identifier ID2 with the environmental attribute. The amino resin composition identifier ID2 may be associated with a physical entity of the amino resin composition. In this way, the virtual identifier of the material may be uniquely linked to the physical material. Such links may include physical or virtual links to identifiers uniquely associated with the physical material. For physical links, a label or code may be physically attached to the material, for example, by printing a QR code on the package. For virtual links, different identifiers associated with physical materials may be linked. For example, order numbers, LOT numbers, or combinations thereof may be linked.
The outbound designator 114 may be configured to provide environmental attributes associated with the amino resin composition to a data consumer, such as a system associated with a user of the amino resin composition. The outbound assigner 114 may be configured to provide environmental attributes associated with the amino resin composition to a decentralized network as will be described in the example of fig. 4. The environmental attribute may be provided in the form of a digital asset associated with a physical entity of the amino resin composition or an amino resin composition pass via the ID-based schema described above.
Fig. 3 schematically illustrates an example of imparting environmental properties of an input material 100 and a chemical process to an amino resin composition 104 produced by a chemical production network 102.
As described in the context of fig. 1 and 2, the chemical production network 102 and the operation of the chemical production network 102 may be monitored and/or controlled by the production operating system 106. An input material 100, such as pyrolysis oil, bio-naphtha, or biogas, may be provided to a chemical production network 102. The input material 100 may be used in a chemical production network 102 to produce one or more amino resin compositions 104 from the input material 100.
Upon entry of the input material 100, the input material data 108 may be provided to a computing interface of the production operating system 106 via a communication network. A data provider (such as a QR code reader) may be configured to provide material data 108 related to one or more input materials 100 and corresponding environmental attributes 108 to a computing interface configured to assign environmental attributes associated with the input materials 100. The material data 108 may include an input material identifier and environmental attributes associated with the input material 100. The input material identifier may be associated with a physical entity of the input material 100 entering the chemical production network 102. The input material identifier may be linked to a carbon footprint of the input material 100 as an environmental attribute. The material data may be provided at, before, or after the entry point provides one or more input materials to the chemical production network 102.
The inbound distributor 110 may be configured to retrieve one or more environmental attributes and provide such attributes to the Carbon Footprint (CF) generator 120. The process data provider 122 may be configured to collect process data associated with the chemical processing of the input material(s) 100 for producing the amino resin composition(s) 104. The process data provider 122 may be configured to collect energy data associated with energy consumption of the chemical process. The process data provider 122 may be configured to provide process data and energy data to the CF generator 120.
CF generator 120 may be configured to determine a carbon footprint of an amino resin composition produced by a chemical production network. The carbon footprint of the amino resin composition may be determined based on the process data, energy data, and carbon footprint of the input material(s) 100 used to produce the amino resin composition.
The identifier provider 116 may be configured to provide an amino resin composition identifier associated with an amino resin composition produced by the chemical production network 102 and provided at an exit point of the chemical production network 102.
The outbound assigner 114 may be configured to assign the determined carbon footprint to the amino resin composition identifier ID2. One or more environmental attributes may be assigned to the at least one amino resin composition identifier ID2, as described in the context of fig. 2.
The outbound designator 114 may be configured to provide environmental attributes associated with the amino resin composition (particularly the carbon footprint) to a data consumer, such as a system associated with a user of the amino resin composition. The outbound assigner 114 may be configured to provide environmental attributes associated with the amino resin composition to a decentralized network as will be described in the example of fig. 4. The environmental attribute may be provided in the form of a digital asset associated with a physical entity of the amino resin composition or an amino resin composition pass via the ID-based schema described above.
Fig. 4 schematically illustrates an example of a method or apparatus for providing environmental properties associated with an amino resin composition to a user of a material as a data consumer via a decentralized network.
The amino resin composition 104 produced by the chemical production network 102 may be provided in association with a digital asset, as described in the context of fig. 2 and 3. The digital asset may include an amino resin composition identifier. The digital asset may include one or more environmental attributes such as product carbon footprint, recovery content, or biobased content. The digital asset may relate to one or more environmental attributes, such as product carbon footprint, recovery content, or biobased content. The digital asset may include a digital representation of one or more environmental attributes, such as product carbon footprint, recovery content, or biobased content.
The digital asset may further include or relate to authentication and/or authorization information linked to the amino resin composition identifier. Authentication and/or authorization information may be provided for authenticating and/or authorizing the data providing service 208 and/or the data consuming service 210. The amino resin composition identifier may include or relate to a dispersed identifier uniquely associated with the amino resin composition. The decentralized identifier may be connected to a digital representation of the environmental attribute. The digital representation may include a representation for accessing an environmental attribute or a portion thereof. The decentralized identifier may include a Universally Unique Identifier (UUID) or a Digital Identifier (DID). The decentralized identifier may include any unique identifier uniquely associated with the data owner and/or the amino resin composition. The data owner may be the producer of the amino resin composition. Access to the material configuration data may be controlled by the data owner via the distributed identifier and its unique association with the data owner and/or the amino resin composition.
Digital assets including a digital representation of one or more environmental attributes, such as product carbon footprint, recovery content, or biobased content, may be stored in the decentralized database 200. One or more environmental attributes, such as product carbon footprint, recovery content, or biobased content, may be stored in the database 202 associated with the owner of the data, such as the producer of the amino resin composition 104.
The amino resin composition 104 may be physically delivered to a user of the amino resin composition. The amino resin composition may be linked to a QR code that has encoded an identifier of the amino resin composition. A user of the amino resin composition may read the QR code through the QR code reader 206. The amino resin composition identifier may be provided to a database 208 associated with a consumer of the amino resin composition 104. In other embodiments, the consumer of the amino resin composition may retrieve the amino resin composition identifier through the decentralized database 200.
The data owners in this example may be input material producers, output material users, end product producers. The data owner may include any entity that generates data. The data generating node may be coupled to the data owner or to an entity that owns or produces a physical product from or for which data is generated. The data may be generated by a third party entity that is representative of an entity that owns the physical product from which or for which the data was generated.
The data consumption service 210 may include computer-executable instructions for accessing and/or processing data associated with a data owner, such as amino resin composition data. The data providing service 210 may include computer-executable instructions for providing and/or processing data (such as amino resin composition data) associated with a data owner for access and/or processing by a data consuming service.
Based on the received amino resin composition identifier, the data consumption service 210 may trigger a request for access to the environmental attribute associated with the amino resin composition identifier, as indicated by arrow 212. The amino resin composition identifier may be provided to the data-providing service 214 associated with the producer of the amino resin composition 104 or the data-providing service of the producer of the amino resin composition. In addition, authentication and/or authorization information may be provided.
The request may be authenticated and/or authorized to access the environmental attribute associated with the amino resin composition identifier. Based on successful authorization and/or authentication, access to the environmental properties associated with the amino resin composition identifier may be granted.
For access, the amino resin composition identifier may be provided to a data providing service 214, as indicated by arrow 212. The data providing service 214 may use the received amino resin composition identifier to retrieve the environmental attribute associated with the amino resin composition 104, as indicated by arrows 218 and 220. Environmental attributes associated with the amino resin composition 104 provided to the data-providing service 214 may be provided to the data-consuming service 210, as indicated by arrow 216. Environmental attributes associated with the amino resin composition 104 may be stored in a database 208 associated with a user of the amino resin composition 104, as indicated by arrow 220.
By outputting the identifier or the dispersion identifier, the environmental attribute can be uniquely associated with the amino resin composition. Through the decentralized network, environmental properties can be transferred between the producer of the amino resin composition and the user of the amino resin composition. In this way, environmental attributes can be shared directly among the value chain participants through unique associations with the amino resin composition and without the need for a central intermediary. This achieves transparency of environmental attributes across the value chain and can track the positive environmental impact of the amino resin composition produced by the chemical production network 102 through the value chain.
FIG. 5 schematically illustrates an example of a method or apparatus for providing environmental properties associated with an amino resin composition across a value chain via a decentralized network.
In the examples of fig. 6A and 6B, a fully connected value chain comprising a chemical production network is schematically shown. In this example, the input material provider, amino resin composition producer, amino resin composition user, and end product producer may be connected to a decentralized network as described in the context of fig. 4. The environmental attributes may be provided in the form of digital asset or amino resin composition passes associated with the physical entities of the input material, amino resin composition, any intermediate product or end product via the ID-based schema described in the context of fig. 2-4.
The input material provider may provide an input material such as biogas or pyrolysis oil. The environmental properties of the input material may be provided by a data provision service connected to a decentralized network as described in the context of fig. 4. Amino resin composition producers can produce amino resin compositions from input material(s) provided to a chemical production network. The amino resin composition producer may access the environmental properties associated with the input material through a data consumption service connected to a decentralized network as described in the context of fig. 4. The amino resin composition producer may manage environmental attributes via a production operating system as described in the context of fig. 1-3. The amino resin composition producer may assign environmental attributes associated with the input material or environmental attributes associated with the chemical production network (such as carbon footprint) to the amino resin composition, as described in the context of fig. 1-3. The amino resin composition producer may provide environmental attributes associated with the amino resin composition through a data provision service connected to a decentralized network as described in the context of fig. 4. The amino resin composition user or end product producer may access the environmental properties associated with the amino resin composition through a data consumption service connected to a decentralized network as described in the context of fig. 4.
The corresponding data owners in this example may be input material producers, output material users, end product producers. The data owner may include any entity that generates data. The data generating node may be coupled to the data owner or to an entity that owns or produces a physical product from or for which data is generated. The data may be generated by a third party entity that is representative of an entity that owns the physical product from which or for which the data was generated.
The data consumption service may include computer-executable instructions for accessing and/or processing data associated with the data owner, such as amino resin composition data. The data providing service may include computer-executable instructions for providing and/or processing data (such as amino resin composition data) associated with the data owner for access and/or processing by the data consuming service.
In the example of fig. 5, the distributed identifier may be associated with the end product. Such a decentralized identifier may be provided to the value chain participant. Via the end product-specific dispersed identifier, data associated with the end product produced from the amino resin composition may be collected across the production chain and assigned to the end product-specific dispersed identifier. For example, the one or more environmental properties associated with the final product may be derived from the environmental property(s) associated with the amino resin composition, the input material, or any other product entity present in the value chain of the final product.
In this way, the environmental properties of the input material, the amino resin composition, and any product produced from the amino resin composition can be tracked through the value chain to the final product. By tracking environmental properties of materials in this manner, information can be made transparent throughout the value chain, while information flow can be controlled by participants in the supply chain. In addition, the production operating system as described in the context of fig. 1 and 3 may process environmental attributes as desired by the individual participants. In general, such tracking enables tracking of the active environmental impact of individual supply chain participants, which makes the active environmental impact transparent and can be imparted to individual supply chain participants.
Fig. 6A schematically illustrates an example of a chemical production network for producing amino resin compositions 612 that include or consist of urea-formaldehyde (UF) resins and/or UF gums 610 associated with digital assets. The example of fig. 6A is an illustrative example and should not be considered limiting.
In the example of fig. 6A, fossil raw materials, biological raw materials, and recycled raw materials may be provided to a chemical production network (see, e.g., fig. 1-5) for use in producing an amino resin composition including, e.g., UF resin and/or UF gum.
The chemical production network 202 may include a syngas facility. The synthesis gas facility may be fed with mixed feedstocks, including fossil feedstocks, biological feedstocks, and recycled feedstocks, or mixtures thereof. The biological feedstock may include biological methane, biological naphtha, or mixtures thereof. The recycled raw material may include pyrolysis oil, such as pyrolysis oil produced from scrap tires. The fossil feedstock may include natural gas and/or naphtha produced from crude oil.
Ammonia 602 and methanol 604 may be produced from a fossil feedstock, a biological feedstock, and a recovered feedstock. Urea 606 may be produced from ammonia 602. Formaldehyde 608 can be produced from methanol 604. These intermediates can then be reacted to form urea-formaldehyde (UF) resin and/or urea-formaldehyde (UF) gum 610, which are examples of amino resin compositions 612.
The biomethane content of biomethane and/or the pyrolysis oil content of pyrolysis oil as non-fossil input materials may be tracked. As described in the context of fig. 2, the biomethane content and/or pyrolysis oil content at the start of the production chain of the amino resin composition(s) 612 may be registered via the operating system 108 (not shown) of the chemical production network 202. Here, pyrolysis oil content may be assigned to balance account 210 associated with metadata (such as metadata indicating that the balance account is assigned to recycled material). The biomethane content may be assigned to the balance account 212 associated with metadata (such as metadata indicating that the balance account is assigned to the biobased material). Thus, the environmental attributes of the biomethane content and/or pyrolysis oil content are separated from the mass flow of the chemical processes in the chemical production network 202, as shown in fig. 6A.
Fig. 6B schematically illustrates an example of a chemical production network for producing amino resin compositions 618 that include or consist of melamine-formaldehyde (MF) resins and/or MF gums 616 associated with digital assets. The example of fig. 6B is an illustrative example and should not be considered limiting.
The chemical production network 202 graphically illustrated in fig. 6B differs from the chemical production network in fig. 6A in that melamine 614 produced from ammonia is used and reacted with formaldehyde 608. Thus, MF resin and/or MF gum 616 is produced. In addition to this difference, the rest refers to the description with respect to fig. 6A.
Additionally or alternatively, copolymers of MF and UF may also be used as the amino resin composition. Thus, both melamine 614 and urea 606 may react with formaldehyde 608, thereby producing melamine urea-formaldehyde (MUF) resin and/or MUF gum (not shown).
To impart a biomethane content and/or a pyrolysis oil content for producing the amino resin composition(s) 612, 618, the biomethane content and/or the pyrolysis oil content may be determined. The biogenic methane content and/or pyrolysis oil content that may be imparted to the production of the amino resin composition may be based on mass conservation that may be imparted to the amino resin composition. For example, only half of the biomethane content and/or pyrolysis oil content may be imparted to the amino resin composition, while the other half may be imparted to other output products produced from the mixed feedstock as input material. Environmental attributes of the biogenic methane content and/or pyrolysis oil content may be imparted to the amino resin composition in such proportions.
Registering the biomethane content and/or pyrolysis oil content of the input material and imparting the registered environmental attribute to the produced amino resin composition (such as produced) may be performed as described in relation to fig. 2. In the system shown in fig. 2, by associating a dispersed ID with an amino resin composition and assigning an environmental attribute to the dispersed ID, the environmental attribute associated with the production of the amino resin composition can be imparted to the produced amino resin composition. By linking the ID and the environmental attribute, the environmental attribute can be uniquely linked to the produced amino resin composition. The amino resin composition may be delivered to a consumer of the amino resin composition, such as a producer of other products produced using the received amino resin composition. The package (e.g., a bag) containing the amino resin composition may include a QR code. The decentralized ID may be included or encoded into the QR code. In this way, a consumer of the amino resin composition may access the environmental properties associated with the amino resin composition via an ID-based protocol as described in the context of fig. 4 and 5.
Similarly to this example, registering carbon footprint data associated with the input materials and production process and assigning the carbon footprint to the produced amino resin composition may be based on the method shown for the carbon footprint in fig. 3.
The disclosure has also been described in connection with the preferred embodiments and examples. However, other variations can be understood and effected by those skilled in the art and practicing the claimed invention, from a study of the drawings, the disclosure and the appended claims.
Any of the steps presented herein may be performed in any order. The methods disclosed herein are not limited to a particular sequence of these steps. Nor does it require that different steps be performed somewhere in the distributed system or at a certain computing node, i.e. each step may be performed at a different computing node using different devices/data processes.
As used herein, "determining" also includes "initiating or causing a determination," generating "also includes" initiating and/or causing a generation, "and" providing "also includes" initiating or causing a determination, generating, selecting, transmitting, and/or receiving. "initiate or cause an action" includes any processing signal that triggers a computing node or device to perform the corresponding action.
In the claims and specification, "comprising" does not exclude other elements or steps, and the indefinite article "a" or "an" does not exclude a plurality. A single element or other unit may fulfill the functions of several entities or items recited in the claims. The mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measures cannot be used to advantage.
Claims (15)
1. A system for producing an amino resin composition associated with a digital asset, the system comprising:
-a chemical production network configured to produce the amino resin composition, wherein the amino resin composition is produced from one or more input materials by one or more chemical processes of the chemical production network, wherein the one or more input materials and/or the one or more chemical processes are associated with environmental attribute(s);
-a production operation device configured to generate the digital asset by providing a decentralized identifier associated with the produced amino resin composition and linking the decentralized identifier to the environmental attribute(s).
2. The system of claim 1, wherein the amino resin composition associated with the digital asset is selected from the group consisting of: one or more urea-formaldehyde (UF) based materials, in particular UF resins and/or UF gums; and/or one or more melamine-formaldehyde (MF) based substances, in particular MF gums and/or MF resins; or copolymers thereof.
3. The system of any one of claims 1 or 2, wherein the digital asset of the amino resin composition comprises mass balance environmental properties related to the input material(s).
4. The system of any one of claims 1-3, wherein the one or more environmental attributes associated with the amino resin composition are provided by at least one balance account configured to store the environmental attribute(s) associated with the input material(s).
5. The system of any one of claims 1-4, wherein the one or more environmental attributes are associated with at least one characteristic related to the environmental impact of the one or more input materials and/or the chemical process (es).
6. The system of any one of claims 1-5, wherein the production operation device is configured to collect environmental attributes associated with the produced amino resin composition before, during, and/or after production of the amino resin composition by the chemical production network.
7. The system of any one of claims 1-6, wherein the environmental attribute(s) associated with an amino resin composition produced by a chemical process from one or more input materials provided to the chemical production network include environmental attribute(s) associated with the input material(s), the chemical process(s), and/or the chemical production network(s).
8. The system of any one of claims 1-7, wherein the environmental attribute(s) associated with the input material(s) are provided before, during, and/or after production of the amino resin composition by the chemical production network, wherein the environmental attribute(s) associated with the input material(s) are assigned to at least one balance account before, during, and/or after production of the amino resin composition by the chemical production network.
9. The system of any one of claims 1-8, wherein the environmental attribute(s) associated with the produced amino resin composition relate to environmental characteristics resulting from process data associated with chemical processing of the input material(s) and/or energy data associated with energy consumption of the chemical processing, wherein the environmental attribute(s) associated with the produced amino resin composition are produced before, during, and/or after production of the amino resin composition by the chemical production network.
10. A method for producing an amino resin composition associated with a digital asset, wherein the method comprises:
-producing the amino resin composition from one or more input materials by one or more chemical processes of a chemical production network, wherein the one or more input materials and/or the one or more chemical processes are associated with environmental attribute(s);
-generating the digital asset by: providing a dispersion identifier associated with the produced amino resin composition and one or more environmental attributes associated with the one or more input materials and/or the one or more chemical processes;
linking the decentralized identifier and the one or more environmental attributes;
-providing the produced amino resin composition in association with the digital asset.
11. An amino resin composition associated with a digital asset comprising a distributed identifier associated with the amino resin composition and linked to one or more environmental attributes of one or more input materials and/or one or more chemical processes used to produce the amino resin composition.
12. The amino resin composition of claim 11, wherein the amino resin composition is selected from the group consisting of: one or more urea-formaldehyde (UF) based materials, in particular UF resins and/or UF gums; and/or one or more melamine-formaldehyde (MF) based substances, in particular MF gums and/or MF resins; or copolymers thereof.
13. A method for generating a digital asset associated with an amino resin composition, wherein the amino resin composition is produced from one or more input materials by one or more chemical processes of a chemical production network, wherein the one or more input materials and/or the one or more chemical processes are associated with environmental attribute(s), the method comprising:
-providing a distributed identifier associated with the produced amino resin composition, one or more input materials and/or one or more environmental properties of one or more chemical processes for producing the amino resin composition;
-linking the decentralized identifier and the environmental attribute(s);
-providing the produced amino resin composition in association with the digital asset, wherein the environmental attribute(s) associated with the amino resin composition are accessible to a user of the amino resin composition through the digital asset.
14. A digital asset generated according to the method of claim 13.
15. A method for using the digital asset generated by the method of claim 13 to produce a product produced from an amino resin composition associated with the digital asset; or a method for producing a product from the amino resin composition and deriving a digital asset associated with the product from the amino resin composition digital asset using the amino resin composition associated with the digital asset as claimed in any one of claims 11 or 12.
Applications Claiming Priority (27)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| EP21216326.5 | 2021-12-21 | ||
| EP21216271.3 | 2021-12-21 | ||
| EP21216292.9 | 2021-12-21 | ||
| EP21216286.1 | 2021-12-21 | ||
| EP21216333.1 | 2021-12-21 | ||
| EP21216270.5 | 2021-12-21 | ||
| EP21216268.9 | 2021-12-21 | ||
| EP21216327.3 | 2021-12-21 | ||
| EP21216269.7 | 2021-12-21 | ||
| EP22166573.0 | 2022-04-04 | ||
| EP22167945.9 | 2022-04-12 | ||
| EP22172609.4 | 2022-05-10 | ||
| EP22172615.1 | 2022-05-10 | ||
| EP22172617.7 | 2022-05-10 | ||
| EP22172611.0 | 2022-05-10 | ||
| EP22172619.3 | 2022-05-10 | ||
| EP22194793.0 | 2022-09-09 | ||
| EP22194800.3 | 2022-09-09 | ||
| EP22194808.6 | 2022-09-09 | ||
| EP22194815.1 | 2022-09-09 | ||
| EP22194818.5 | 2022-09-09 | ||
| US202263416091P | 2022-10-14 | 2022-10-14 | |
| EP22201672.7 | 2022-10-14 | ||
| US63/416,091 | 2022-10-14 | ||
| EP22202183.4 | 2022-10-18 | ||
| EP22211421.7 | 2022-12-05 | ||
| PCT/EP2022/086610 WO2023117875A1 (en) | 2021-12-21 | 2022-12-19 | Environmental attributes for amino resin compositions |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN118451437A true CN118451437A (en) | 2024-08-06 |
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ID=92333866
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202280084364.5A Pending CN118451437A (en) | 2021-12-21 | 2022-12-19 | Environmental Properties of amino resin composition |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN118451437A (en) |
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2022
- 2022-12-19 CN CN202280084364.5A patent/CN118451437A/en active Pending
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