Observação
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O acesso a essa página exige autorização. Você pode tentar alterar os diretórios.
O DDMS do RAFS (Exemplos de Rocha e Fluido) permite gerenciar o armazenamento, a recuperação e a associação de dados mestres, análises e relatórios de exemplo de rocha e fluido. Este tutorial mostra um fluxo de trabalho passo a passo usando cURL para criar e interagir com essas entidades em sua instância do Azure Data Manager for Energy.
Neste tutorial, você aprenderá a usar uma APIs de DDMS do RAFS para:
- Criar uma etiqueta jurídica
- Criar hierarquia de dados mestre
- Criar registros de dados mestres do RAFS
- Criar relatório de análise de exemplo
- Criar análise de exemplo
Este tutorial mostra interações de cURL de ponta a ponta comumente usadas com endpoints da API DDMS do RAFS.
Pré-requisitos
- Uma assinatura do Azure
- Instância do Gerenciador de Dados do Azure para Energia (veja a [introdução]](quickstart-create-microsoft-energy-data-services-instance.md))
- cURL instalado localmente
- Dados padrão de referência do OSDU carregados em sua instância
- Token de acesso válido (veja como gerar token de autenticação)
Obter detalhes para a instância do Azure Data Manager para Energia
Para este tutorial, você precisa dos seguintes parâmetros:
| Parâmetro | Valor a ser usado | Example | Onde encontrar esse valor |
|---|---|---|---|
DNS |
URI da instância do Azure Data Manager para Energia | <instance>.energy.azure.com |
Página de visão geral da instância do Azure Data Manager para Energia |
DATA_PARTITION_ID |
Identificador de partição de dados | <data-partition-id> |
Seção Partição de dados na instância do Azure Data Manager para Energia |
ACCESS_TOKEN |
Token de acesso OAuth 2.0 (token de portador) | 0.ATcA01-XWHdJ0ES-qDevC6r........... |
Gerar usando o guia Como gerar token de autenticação |
LEGAL_TAG |
Nome de uma nova marca legal | opendes-demo-legal-tag |
Você define (veja abaixo) |
Siga o guia Gerenciar usuários para adicionar direitos apropriados para o usuário que está executando este tutorial.
1. Criar uma marca legal
As marcas legais são essenciais para fins de conformidade e são usadas em registros subsequentes.
curl --request POST \
--url {{DNS}}/api/legal/v1/legaltags \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}' \
--data '{
"name": "{{LEGAL_TAG}}",
"description": "RAFS DDMS Demo legal tag",
"properties": {
"countryOfOrigin": [
"US"
],
"contractId": "A1234",
"expirationDate": "2099-01-25",
"originator": "Contoso",
"dataType": "Public Domain Data",
"securityClassification": "Public",
"personalData": "No Personal Data",
"exportClassification": "EAR99"
}
}'
Resposta de exemplo:
{
"name": "opendes-osdu-rafs-ddms-demo-legal-ta",
"description": "RAFS DDMS Demo legal tag",
"properties": {
"countryOfOrigin": ["US"],
"contractId": "A1234",
"expirationDate": "2099-01-25",
"originator": "Contoso",
"dataType": "Public Domain Data",
"securityClassification": "Public",
"personalData": "No Personal Data",
"exportClassification": "EAR99"
}
}
2. Criar hierarquia de dados mestre
As entidades devem ser criadas nesta ordem: Organização → Campo → Poço → Poço perfurado. Todas as solicitações usam o ponto de extremidade do Serviço de Armazenamento: /api/storage/v2/records.
2.1 Organização
Crie um registro da organização usando o comando cURL de exemplo a seguir.
curl --request PUT \
--url {{DNS}}/api/storage/v2/records \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}' \
--data '[
{
"id": "{{DATA_PARTITION_ID}}:master-data--Organisation:CoreLabs-IN",
"kind": "{{AUTHORITY}}:{{SCHEMA_SOURCE}}:master-data--Organisation:1.2.0",
"acl": {
"owners": [
"{{ACL_DATA_OWNERS}}"
],
"viewers": [
"{{ACL_DATA_VIEWERS}}"
]
},
"legal": {
"legaltags": [
"{{DATA_PARTITION_ID}}-{{LEGAL_TAG}}"
],
"otherRelevantDataCountries": [
"FR",
"US"
],
"status": "compliant"
},
"data": {
"OrganisationID": "CoreLabs India Identifier",
"OrganisationName": "CoreLabs India",
"EffectiveDateTime": "2020-02-13T09:13:15.55Z",
"TerminationDateTime": "2030-02-13T09:13:15.55Z"
}
}
]'
Resposta de exemplo:
{
"recordCount": 1,
"recordIds": [
"opendes:master-data--Organisation:CoreLabs-IN"
],
"skippedRecordIds": [],
"recordIdVersions": [
"opendes:master-data--Organisation:CoreLabs-IN:1758005682610981"
]
}
Campo 2.2
curl --request PUT \
--url {{DNS}}/api/storage/v2/records \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}' \
--data '[
{
"id": "{{DATA_PARTITION_ID}}:master-data--Field:RAFS-Field",
"kind": "{{AUTHORITY}}:{{SCHEMA_SOURCE}}:master-data--Field:1.0.0",
"acl": {
"owners": [
"{{ACL_DATA_OWNERS}}"
],
"viewers": [
"{{ACL_DATA_VIEWERS}}"
]
},
"legal": {
"legaltags": [
"{{DATA_PARTITION_ID}}-{{LEGAL_TAG}}"
],
"otherRelevantDataCountries": [
"FR",
"US"
],
"status": "compliant"
},
"data": {
"FieldID": "RAFS Field Identifier",
"FieldName": "RAFS FieldName",
"FieldDescription": "RAFS FieldDescription",
"NameAliases": [
{
"AliasName": "RAFS AliasName",
"AliasNameTypeID": "{{DATA_PARTITION_ID}}:reference-data--AliasNameType:RegulatoryIdentifier:",
"DefinitionOrganisationID": "{{organisation_id}}:",
"EffectiveDateTime": "2020-02-13T09:13:15.55Z",
"TerminationDateTime": "2030-02-13T09:13:15.55Z"
}
]
}
}
]'
Resposta de exemplo:
{
"recordCount": 1,
"recordIds": [
"opendes:master-data--Field:RAFS-Field"
],
"skippedRecordIds": [],
"recordIdVersions": [
"opendes:master-data--Field:RAFS-Field:1758005692653158"
]
}
2.3 Bem
curl --request PUT \
--url {{DNS}}/api/storage/v2/records \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}' \
--data '[
{
"id": "{{DATA_PARTITION_ID}}:master-data--Well:RAFS-Well",
"kind": "{{AUTHORITY}}:{{SCHEMA_SOURCE}}:master-data--Well:1.4.0",
"acl": {
"owners": [
"{{ACL_DATA_OWNERS}}"
],
"viewers": [
"{{ACL_DATA_VIEWERS}}"
]
},
"legal": {
"legaltags": [
"{{DATA_PARTITION_ID}}-{{LEGAL_TAG}}"
],
"otherRelevantDataCountries": [
"FR",
"US"
],
"status": "compliant"
},
"data": {
"FacilityID": "RAFS Facility Identifier",
"FacilityTypeID": "{{DATA_PARTITION_ID}}:reference-data--FacilityType:Well:",
"FacilityOperators": [
{
"FacilityOperatorID": "RAFS Facility Operator ID",
"FacilityOperatorOrganisationID": "{{organisation_id}}:",
"EffectiveDateTime": "2020-02-13T09:13:15.55Z",
"TerminationDateTime": "2030-02-13T09:13:15.55Z",
"Remark": "Example Remark"
}
],
"GeoContexts": [
{
"FieldID": "{{field_id}}:",
"GeoTypeID": "Field"
}
]
}
}
]'
Resposta de exemplo:
{
"recordCount": 1,
"recordIds": [
"opendes:master-data--Well:RAFS-Well"
],
"skippedRecordIds": [],
"recordIdVersions": [
"opendes:master-data--Well:RAFS-Well:1758005701048535"
]
}
Poço perfurado 2.4
curl --request PUT \
--url {{DNS}}/api/storage/v2/records \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}' \
--data '[
{
"id": "{{DATA_PARTITION_ID}}:master-data--Wellbore:RAFS-Wellbore",
"kind": "{{AUTHORITY}}:{{SCHEMA_SOURCE}}:master-data--Wellbore:1.5.1",
"acl": {
"owners": [
"{{ACL_DATA_OWNERS}}"
],
"viewers": [
"{{ACL_DATA_VIEWERS}}"
]
},
"legal": {
"legaltags": [
"{{DATA_PARTITION_ID}}-{{LEGAL_TAG}}"
],
"otherRelevantDataCountries": [
"FR",
"US"
],
"status": "compliant"
},
"data": {
"FacilityID": "RAFS Facility Identifier",
"FacilityTypeID": "{{DATA_PARTITION_ID}}:reference-data--FacilityType:Well:",
"FacilityOperators": [
{
"FacilityOperatorID": "RAFS Facility Operator ID",
"FacilityOperatorOrganisationID": "{{organisation_id}}:",
"EffectiveDateTime": "2020-02-13T09:13:15.55Z",
"TerminationDateTime": "2030-02-13T09:13:15.55Z",
"Remark": "Example Remark"
}
],
"GeoContexts": [
{
"FieldID": "{{field_id}}:",
"GeoTypeID": "Field"
}
],
"WellID": "{{well_id}}:"
}
}
]'
Resposta de exemplo:
{
"recordCount": 1,
"recordIds": [
"opendes:master-data--Wellbore:RAFS-Wellbore"
],
"skippedRecordIds": [],
"recordIdVersions": [
"opendes:master-data--Wellbore:RAFS-Wellbore:1758005709139052"
]
}
3. Ingerir dados mestres do RAFS
Use a API DDMS da RAFS /v2/masterdata para carregar dados mestre de Instalação Genérica, Site Genérico, Trabalho de Aquisição de Amostra, Contêiner de Aquisição de Amostra, Amostra e Evento de Cadeia de Custódia de Amostra.
3.1 Instalação Genérica
curl --request POST \
--url {{DNS}}/api/rafs-ddms/v2/masterdata \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'cache-control: no-store' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}' \
--data '[
{
"id": "{{DATA_PARTITION_ID}}:master-data--GenericFacility:CENTRAL-LAB-001",
"kind": "osdu:wks:master-data--GenericFacility:1.0.0",
"legal": {
"legaltags": [
"{{DATA_PARTITION_ID}}-{{LEGAL_TAG}}"
],
"otherRelevantDataCountries": [
"IN"
],
"status": "compliant"
},
"acl": {
"owners": [
"{{ACL_DATA_OWNERS}}"
],
"viewers": [
"{{ACL_DATA_VIEWERS}}"
]
},
"data": {
"ResourceHomeRegionID": "{{DATA_PARTITION_ID}}:reference-data--OSDURegion:AWSEastUSA:",
"ResourceHostRegionIDs": [
"{{DATA_PARTITION_ID}}:reference-data--OSDURegion:AWSEastUSA:"
],
"ResourceCurationStatus": "{{DATA_PARTITION_ID}}:reference-data--ResourceCurationStatus:Created:",
"ResourceLifecycleStatus": "{{DATA_PARTITION_ID}}:reference-data--ResourceLifecycleStatus:Loading:",
"Source": "Example Data Source",
"ExistenceKind": "{{DATA_PARTITION_ID}}:reference-data--ExistenceKind:Prototype:",
"NameAliases": [
{
"AliasName": "Example AliasName",
"AliasNameTypeID": "{{DATA_PARTITION_ID}}:reference-data--AliasNameType:RegulatoryIdentifier:",
"DefinitionOrganisationID": "{{organisation_id}}:",
"EffectiveDateTime": "2020-02-13T09:13:15.55Z",
"TerminationDateTime": "2020-02-13T09:13:15.55Z"
}
],
"GeoContexts": [
{
"FieldID": "{{field_id}}:",
"GeoTypeID": "Field"
}
],
"Name": "Chevron Central Core Lab",
"FacilityTypeID": "{{DATA_PARTITION_ID}}:reference-data--FacilityType:Wellbore:",
"ResourceHomeRegionID": "{{DATA_PARTITION_ID}}:reference-data--OSDURegion:AzureAustralia:",
"ResourceLifecycleStatus": "{{DATA_PARTITION_ID}}:reference-data--ResourceLifecycleStatus:ACCEPTED:",
"VersionCreationReason": "Example VersionCreationReason",
"FacilityID": "Example External Facility Identifier",
"FacilityTypeID": "{{DATA_PARTITION_ID}}:reference-data--FacilityType:Well:",
"FacilityOperators": [
{
"FacilityOperatorID": "Example Facility Operator ID",
"FacilityOperatorOrganisationID": "{{organisation_id}}:",
"EffectiveDateTime": "2020-02-13T09:13:15.55Z",
"TerminationDateTime": "2020-02-13T09:13:15.55Z",
"Remark": "Example Remark"
}
],
"InitialOperatorID": "{{organisation_id}}:",
"CurrentOperatorID": "{{organisation_id}}:",
"DataSourceOrganisationID": "{{organisation_id}}:",
"OperatingEnvironmentID": "{{DATA_PARTITION_ID}}:reference-data--OperatingEnvironment:Onshore:",
"FacilityName": "Example FacilityName",
"FacilityDescription": "Example Facility Description",
"FacilityStates": [
{
"EffectiveDateTime": "2020-02-13T09:13:15.55Z",
"TerminationDateTime": "2020-02-13T09:13:15.55Z",
"FacilityStateTypeID": "{{DATA_PARTITION_ID}}:reference-data--FacilityStateType:Closed:",
"Remark": "Example Remark"
}
],
"FacilityEvents": [
{
"FacilityEventTypeID": "{{DATA_PARTITION_ID}}:reference-data--FacilityEventType:Abandon:",
"EffectiveDateTime": "2020-02-13T09:13:15.55Z",
"TerminationDateTime": "2020-02-13T09:13:15.55Z",
"Remark": "Example Remark"
}
],
"FacilitySpecifications": [
{
"EffectiveDateTime": "2020-02-13T09:13:15.55Z",
"TerminationDateTime": "2020-02-13T09:13:15.55Z",
"FacilitySpecificationQuantity": 12345.6,
"FacilitySpecificationDateTime": "2020-02-13T09:13:15.55Z",
"FacilitySpecificationIndicator": true,
"FacilitySpecificationText": "Example FacilitySpecificationText",
"UnitOfMeasureID": "{{DATA_PARTITION_ID}}:reference-data--UnitOfMeasure:m:",
"ParameterTypeID": "{{DATA_PARTITION_ID}}:reference-data--ParameterType:SlotName:"
}
],
"ExtensionProperties": {}
}
}
]'
Resposta de exemplo:
{
"recordCount": 1,
"recordIdVersions": [
"opendes:master-data--GenericFacility:CENTRAL-LAB-001:1758005722706490"
],
"skippedRecordCount": 0
}
3.2 Site Genérico
curl --request POST \
--url {{DNS}}/api/rafs-ddms/v2/masterdata \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'cache-control: no-store' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}' \
--data '[
{
"id": "{{DATA_PARTITION_ID}}:master-data--GenericSite:KKS-ADIT-001",
"kind": "osdu:wks:master-data--GenericSite:1.0.0",
"legal": {
"legaltags": [
"{{DATA_PARTITION_ID}}-{{LEGAL_TAG}}"
],
"otherRelevantDataCountries": [
"IN"
],
"status": "compliant"
},
"acl": {
"owners": [
"{{ACL_DATA_OWNERS}}"
],
"viewers": [
"{{ACL_DATA_VIEWERS}}"
]
},
"data": {
"Name": "Kentish Knock South-1 Adit",
"SiteTypeID": "{{DATA_PARTITION_ID}}:reference-data--SiteType:Adit:",
"ResourceHomeRegionID": "{{DATA_PARTITION_ID}}:reference-data--OSDURegion:AzureAustralia:",
"ResourceLifecycleStatus": "{{DATA_PARTITION_ID}}:reference-data--ResourceLifecycleStatus:ACCEPTED:",
"ExistenceKind": "{{DATA_PARTITION_ID}}:reference-data--ExistenceKind:Simulated:"
}
}
]'
Resposta de exemplo:
{
"recordCount": 1,
"recordIdVersions": [
"opendes:master-data--GenericSite:KKS-ADIT-001:1758005728156709"
],
"skippedRecordCount": 0
}
3.3 Trabalho de Aquisição de Amostra
curl --request POST \
--url {{DNS}}/api/rafs-ddms/v2/masterdata \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'cache-control: no-store' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}' \
--data '[
{
"id": "{{DATA_PARTITION_ID}}:master-data--SampleAcquisitionJob:KKS-CORE-20230304-001",
"kind": "osdu:wks:master-data--SampleAcquisitionJob:1.0.0",
"legal": {
"legaltags": [
"{{DATA_PARTITION_ID}}-{{LEGAL_TAG}}"
],
"otherRelevantDataCountries": [
"IN"
],
"status": "compliant"
},
"acl": {
"owners": [
"{{ACL_DATA_OWNERS}}"
],
"viewers": [
"{{ACL_DATA_VIEWERS}}"
]
},
"data": {
"ContractorID": "{{organisation_id}}:",
"ProjectBeginDate": "2013-03-04T00:00:00Z",
"ProjectEndDate": "2013-03-07T00:00:00Z"
}
}
]'
Resposta de exemplo:
{
"recordCount": 1,
"recordIdVersions": [
"opendes:master-data--SampleAcquisitionJob:KKS-CORE-20230304-001:1758005733180422"
],
"skippedRecordCount": 0
}
3.4 Contêiner de Aquisição de Amostra
curl --request POST \
--url {{DNS}}/api/rafs-ddms/v2/masterdata \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'cache-control: no-store' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}' \
--data '[
{
"id": "{{DATA_PARTITION_ID}}:master-data--SampleContainer:COB-12A-001",
"kind": "osdu:wks:master-data--SampleContainer:1.0.0",
"legal": {
"legaltags": [
"{{DATA_PARTITION_ID}}-{{LEGAL_TAG}}"
],
"otherRelevantDataCountries": [
"IN"
],
"status": "compliant"
},
"acl": {
"owners": [
"{{ACL_DATA_OWNERS}}"
],
"viewers": [
"{{ACL_DATA_VIEWERS}}"
]
},
"data": {
"SampleContainerTypeID": "{{DATA_PARTITION_ID}}:reference-data--SampleContainerType:Box:",
"Capacity": 10.0,
"ContainerIdentifier": "CORE-BOX-12A",
"OperatingConditionRating": {
"Pressure": 200,
"Temperature": 100
},
"SampleContainerServiceTypeIDs": [
"{{DATA_PARTITION_ID}}:reference-data--SampleContainerServiceType:Hydrocarbon.Sour:"
]
}
}
]'
Resposta de exemplo:
{
"recordCount": 1,
"recordIdVersions": [
"opendes:master-data--SampleContainer:COB-12A-001:1758005738846690"
],
"skippedRecordCount": 0
}
Exemplo 3.5
curl --request POST \
--url {{DNS}}/api/rafs-ddms/v2/masterdata \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'cache-control: no-store' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}' \
--data '[
{
"id": "{{DATA_PARTITION_ID}}:master-data--Sample:KKS-CORE-PLUG-001",
"kind": "osdu:wks:master-data--Sample:2.1.0",
"legal": {
"legaltags": [
"{{DATA_PARTITION_ID}}-{{LEGAL_TAG}}"
],
"otherRelevantDataCountries": [
"IN"
],
"status": "compliant"
},
"acl": {
"owners": [
"{{ACL_DATA_OWNERS}}"
],
"viewers": [
"{{ACL_DATA_VIEWERS}}"
]
},
"data": {
"SampleAcquisition": {
"SampleAcquisitionJobID": "{{sar_sample_acquisition_record_id}}:",
"SampleAcquisitionDetail": {
"VerticalMeasurement": {
"EffectiveDateTime": "2020-02-13T09:13:15.55Z",
"VerticalMeasurement": 12345.6,
"TerminationDateTime": "2020-02-13T09:13:15.55Z",
"VerticalMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--VerticalMeasurementType:ArbitraryPoint:",
"VerticalMeasurementPathID": "{{DATA_PARTITION_ID}}:reference-data--VerticalMeasurementPath:MD:",
"VerticalMeasurementSourceID": "{{DATA_PARTITION_ID}}:reference-data--VerticalMeasurementSource:DRL:",
"VerticalMeasurementUnitOfMeasureID": "{{DATA_PARTITION_ID}}:reference-data--UnitOfMeasure:m:",
"VerticalCRSID": "{{DATA_PARTITION_ID}}:reference-data--CoordinateReferenceSystem:BoundProjected:EPSG::32021_EPSG::15851:",
"VerticalReferenceID": "Example VerticalReferenceID",
"VerticalMeasurementDescription": "Example VerticalMeasurementDescription"
},
"TopDepth": 10000.0,
"BaseDepth": 20000.0,
"ToolKind": "Wireline Formation Tester",
"RunNumber": "22",
"WellboreID": "{{wellbore_id}}:",
"WellheadOperatingCondition": {
"Pressure": 1.0,
"Temperature": 15.0
},
"SeparatorOperatingCondition": {
"Pressure": 1.0,
"Temperature": 15.0
},
"SamplingPoint": {
"SamplingPointTypeID": "{{DATA_PARTITION_ID}}:reference-data--SamplingPointType:FlowPort:",
"SamplingPointName": "VALVE:1723RR-01"
},
"CorrectedOilRate": 12345.6,
"CorrectedGasRate": 12345.6,
"CorrectedWaterRate": 12345.6,
"MeasuredOilRate": 12345.6,
"MeasuredGasRate": 12345.6,
"MeasuredWaterRate": 12345.6,
"FormationCondition": {
"Pressure": 120,
"Temperature": 60
},
"CorrectionRemarks": {
"RemarkSequenceNumber": 1,
"Remark": "Example Remark",
"RemarkSource": "Example Remark Source",
"RemarkDate": "2020-02-13"
},
"SampleCarrierSlotName": "Example Sample Carrier Slot Name",
"ToolSectionName": "Example Tool Section Name",
"SampleContainerCushionPressure": 12345.6,
"GrossFluidKindID": "{{DATA_PARTITION_ID}}:reference-data--WellProductType:Gas:",
"FacilityEquipmentOperatingCondition": {
"Pressure": 1.0,
"Temperature": 15.0
},
"SiteID": "{{sar_generic_site_record_id}}:",
"SampleRecoveredLengthActual": 12345.6,
"PreservationTypeID": "{{DATA_PARTITION_ID}}:reference-data--CorePreservationType:ClingWrap:",
"SampleRecoveredLengthPlanned": 12345.6,
"AcquisitionCondition": {
"Pressure": 120,
"Temperature": 60
},
"AcquisitionGOR": 340.0,
"MudBaseTypeID": "{{DATA_PARTITION_ID}}:reference-data--MudBaseType:Brine:",
"MudTracerTypeID": "{{DATA_PARTITION_ID}}:reference-data--MudTracerType:ChemicalTracer:"
},
"SampleAcquisitionTypeID": "{{DATA_PARTITION_ID}}:reference-data--SampleAcquisitionType:DownholeSampleAcquisition:",
"SampleAcquisitionContainerID": "{{sar_sample_container_record_id}}:",
"AcquisitionStartDate": "2023-01-01T12:00:00Z",
"AcquisitionEndDate": "2023-01-01T12:00:00Z",
"Remarks": [
{
"RemarkSequenceNumber": 1,
"Remark": "Example Remark",
"RemarkSource": "Example Remark Source",
"RemarkDate": "2020-02-13"
}
],
"CollectionServiceCompanyID": "{{organisation_id}}:",
"HandlingServiceCompanyID": "{{organisation_id}}:"
}
}
}
]'
Resposta de exemplo:
{
"recordCount": 1,
"recordIdVersions": [
"opendes:master-data--Sample:KKS-CORE-PLUG-001:1758005744573136"
],
"skippedRecordCount": 0
}
3.6 Evento de Cadeia de Custódia de Amostra
curl --request POST \
--url {{DNS}}/api/rafs-ddms/v2/masterdata \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'cache-control: no-store' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}' \
--data '[
{
"id": "{{DATA_PARTITION_ID}}:master-data--SampleChainOfCustodyEvent:KKS-TRANSFER-001",
"kind": "osdu:wks:master-data--SampleChainOfCustodyEvent:1.0.0",
"legal": {
"legaltags": [
"{{DATA_PARTITION_ID}}-{{LEGAL_TAG}}"
],
"otherRelevantDataCountries": [
"IN"
],
"status": "compliant"
},
"acl": {
"owners": [
"{{ACL_DATA_OWNERS}}"
],
"viewers": [
"{{ACL_DATA_VIEWERS}}"
]
},
"data": {
"Name": "Example Name",
"TransferCondition": {
"Pressure": 100,
"Temperature": 60
},
"OpeningCondition": {
"Pressure": 100,
"Temperature": 60
},
"ClosingCondition": {
"Pressure": 100,
"Temperature": 60
},
"CustodyDate": "2022-01-01T10:00:00",
"CustodyEventTypeID": "{{DATA_PARTITION_ID}}:reference-data--CustodyEventType:SampleTransfer:",
"Custodian": "Harris A.",
"PreviousStorageLocation": {
"StorageLocationDescription": "Example StorageLocationDescription",
"StorageOrganisationID": "{{organisation_id}}:",
"EffectiveDateTime": "2020-02-13",
"TerminationDateTime": "2020-02-13",
"SampleIdentifier": "Example SampleIdentifier"
},
"CurrentStorageLocation": {
"StorageLocationDescription": "Example StorageLocationDescription",
"StorageOrganisationID": "{{organisation_id}}:",
"EffectiveDateTime": "2020-02-13",
"TerminationDateTime": "2020-02-13",
"SampleIdentifier": "Example SampleIdentifier"
},
"CustodyEventLocationID": "{{organisation_id}}:",
"CurrentContainerID": "{{sar_sample_container_record_id}}:",
"Remarks": [
{
"Remark": "Transfer process resulted in lost volume.",
"RemarkSource": "Lab Analyst 1"
}
],
"SampleID": "{{sample_record_id}}:"
}
}
]'
Resposta de exemplo:
{
"recordCount": 1,
"recordIdVersions": [
"opendes:master-data--SampleChainOfCustodyEvent:KKS-TRANSFER-001:1758005749904118"
],
"skippedRecordCount": 0
}
4. Ingerir Relatório de Análise de Amostra
4.1 Criar um novo relatório de análise de exemplo
curl --request POST \
--url {{DNS}}/api/rafs-ddms/v2/samplesanalysesreport \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}' \
--data '[
{
"id": "{{DATA_PARTITION_ID}}:work-product-component--SamplesAnalysesReport:KKS1",
"kind": "{{AUTHORITY}}:wks:work-product-component--SamplesAnalysesReport:1.0.0",
"acl": {
"viewers": [
"{{ACL_DATA_VIEWERS}}"
],
"owners": [
"{{ACL_DATA_OWNERS}}"
]
},
"legal": {
"legaltags": [
"{{DATA_PARTITION_ID}}-{{LEGAL_TAG}}"
],
"otherRelevantDataCountries": [
"IN"
],
"status": "compliant"
},
"tags": {
"NameOfKey": "String value"
},
"meta": [],
"data": {
"DocumentTypeID": "{{DATA_PARTITION_ID}}:reference-data--DocumentType:SampleAnalysisReport:",
"NumberOfPages": 210,
"SubTitle": "An Advanced Rock Properties Study Of Selected Samples From Well: KENTISH KNOCK SOUTH 1",
"DocumentSubject": "Special Core Analysis Results Report (Final)",
"DatePublished": "2020-12-16T11:46:20.163Z",
"DateModified": "2020-12-16T11:46:20.163Z",
"DocumentLanguage": "English",
"SampleIDs": [
"{{sample_record_id}}:"
],
"ReportSampleIdentifiers": [
"48B"
],
"SampleAnalysisTypeIDs": [
"{{DATA_PARTITION_ID}}:reference-data--SampleAnalysisType:RelativePermeability.SteadyState:",
"{{DATA_PARTITION_ID}}:reference-data--SampleAnalysisType:NMR:",
"{{DATA_PARTITION_ID}}:reference-data--SampleAnalysisType:ElectricalProperties.FormationResistivityFactor:"
],
"SamplesAnalysisCategoryTagIDs": [
"{{DATA_PARTITION_ID}}:reference-data--SamplesAnalysisCategoryTag:GreenCompany.SCAL:"
],
"Remarks": [
{
"Remark": "RelativePermeability, page 105",
"RemarkSequenceNumber": 1,
"RemarkSource": "CoreLab"
},
{
"Remark": "NMR, page 91",
"RemarkSequenceNumber": 1,
"RemarkSource": "CoreLab"
}
],
"LaboratoryIDs": [
"{{organisation_id}}:"
],
"LaboratoryNames": [
"Core Laboratories"
]
}
}
]'
Resposta de exemplo:
{
"recordCount": 1,
"recordIdVersions": [
"opendes:work-product-component--SamplesAnalysesReport:KKS1:1758005756819109"
],
"skippedRecordCount": 0
}
4.2 Obter o registro do Relatório de Análise de Amostra
Para recuperar um relatório, use GET /api/rafs-ddms/v2/samplesanalysesreport/{reportId}
curl --request GET \
--url {{DNS}}/api/rafs-ddms/v2/samplesanalysesreport/{{report_id}} \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'cache-control: no-store' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}'
{
"data": {
"DocumentTypeID": "opendes:reference-data--DocumentType:SampleAnalysisReport:",
"NumberOfPages": 210,
"SubTitle": "An Advanced Rock Properties Study Of Selected Samples From Well: KENTISH KNOCK SOUTH 1",
"DocumentSubject": "Special Core Analysis Results Report (Final)",
"DatePublished": "2020-12-16T11:46:20.163Z",
"DateModified": "2020-12-16T11:46:20.163Z",
"DocumentLanguage": "English",
"SampleIDs": [
"opendes:master-data--Sample:KKS-CORE-PLUG-001:"
],
"ReportSampleIdentifiers": [
"48B"
],
"SampleAnalysisTypeIDs": [
"opendes:reference-data--SampleAnalysisType:RelativePermeability.SteadyState:",
"opendes:reference-data--SampleAnalysisType:NMR:",
"opendes:reference-data--SampleAnalysisType:ElectricalProperties.FormationResistivityFactor:"
],
"SamplesAnalysisCategoryTagIDs": [
"opendes:reference-data--SamplesAnalysisCategoryTag:GreenCompany.SCAL:"
],
"Remarks": [
{
"Remark": "RelativePermeability, page 105",
"RemarkSequenceNumber": 1,
"RemarkSource": "CoreLab"
},
{
"Remark": "NMR, page 91",
"RemarkSequenceNumber": 1,
"RemarkSource": "CoreLab"
}
],
"LaboratoryIDs": [
"opendes:master-data--Organisation:CoreLabs-IN:"
],
"LaboratoryNames": [
"Core Laboratories"
]
},
"meta": [],
"modifyUser": "89a1a081-3783-4824-88f9-e2b97d602d52",
"modifyTime": "2025-09-16T06:55:56.839Z",
"id": "opendes:work-product-component--SamplesAnalysesReport:KKS1",
"version": 1758005756819109,
"kind": "osdu:wks:work-product-component--SamplesAnalysesReport:1.0.0",
"acl": {
"viewers": [
"data.default.viewers@opendes.dataservices.energy"
],
"owners": [
"data.default.owners@opendes.dataservices.energy"
]
},
"legal": {
"legaltags": [
"opendes-osdu-rafs-ddms-demo-legal-tag"
],
"otherRelevantDataCountries": [
"IN"
],
"status": "compliant"
},
"tags": {
"NameOfKey": "String value"
},
"createUser": "89a1a081-3783-4824-88f9-e2b97d602d52",
"createTime": "2025-09-15T11:04:40.310Z"
}
4.3 Obter todas as versões do Relatório de Análise de Exemplo
Para listar todas as versões, use GET /api/rafs-ddms/v2/samplesanalysesreport/{record_id}/versions
curl --request GET \
--url {{DNS}}/api/rafs-ddms/v2/samplesanalysesreport/{{record_id}}/versions \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}'
Resposta de exemplo:
{
"recordId": "opendes:work-product-component--SamplesAnalysesReport:KKS1",
"versions": [
1757934280081250,
1757940413848125,
1757996685957604,
1758004251045884,
1758004420706401,
1758005756819109
]
}
4.4 Obter uma versão específica do Relatório de Análise de Exemplo
Para obter uma versão específica, use GET /api/rafs-ddms/v2/samplesanalysesreport/{record_id}/versions/{version}
curl --request GET \
--url {{DNS}}/api/rafs-ddms/v2/samplesanalysesreport/{{record_id}}/versions/{{version}} \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'cache-control: no-store' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}'
Resposta de exemplo:
{
"data": {
"DocumentTypeID": "opendes:reference-data--DocumentType:SampleAnalysisReport:",
"NumberOfPages": 210,
"SubTitle": "An Advanced Rock Properties Study Of Selected Samples From Well: KENTISH KNOCK SOUTH 1",
"DocumentSubject": "Special Core Analysis Results Report (Final)",
"DatePublished": "2020-12-16T11:46:20.163Z",
"DateModified": "2020-12-16T11:46:20.163Z",
"DocumentLanguage": "English",
"SampleIDs": [
"opendes:master-data--Sample:KKS-CORE-PLUG-001:"
],
"ReportSampleIdentifiers": [
"48B"
],
"SampleAnalysisTypeIDs": [
"opendes:reference-data--SampleAnalysisType:RelativePermeability.SteadyState:",
"opendes:reference-data--SampleAnalysisType:NMR:",
"opendes:reference-data--SampleAnalysisType:ElectricalProperties.FormationResistivityFactor:"
],
"SamplesAnalysisCategoryTagIDs": [
"opendes:reference-data--SamplesAnalysisCategoryTag:GreenCompany.SCAL:"
],
"Remarks": [
{
"Remark": "RelativePermeability, page 105",
"RemarkSequenceNumber": 1,
"RemarkSource": "CoreLab"
},
{
"Remark": "NMR, page 91",
"RemarkSequenceNumber": 1,
"RemarkSource": "CoreLab"
}
],
"LaboratoryIDs": [
"opendes:master-data--Organisation:CoreLabs-IN:"
],
"LaboratoryNames": [
"Core Laboratories"
]
},
"meta": [],
"modifyUser": "89a1a081-3783-4824-88f9-e2b97d602d52",
"modifyTime": "2025-09-16T06:55:56.839Z",
"id": "opendes:work-product-component--SamplesAnalysesReport:KKS1",
"version": 1758005756819109,
"kind": "osdu:wks:work-product-component--SamplesAnalysesReport:1.0.0",
"acl": {
"viewers": [
"data.default.viewers@opendes.dataservices.energy"
],
"owners": [
"data.default.owners@opendes.dataservices.energy"
]
},
"legal": {
"legaltags": [
"opendes-osdu-rafs-ddms-demo-legal-tag"
],
"otherRelevantDataCountries": [
"IN"
],
"status": "compliant"
},
"tags": {
"NameOfKey": "String value"
},
"createUser": "89a1a081-3783-4824-88f9-e2b97d602d52",
"createTime": "2025-09-15T11:04:40.310Z"
}
5. Ingerir Análise de Amostra
Criar um exemplo de registro de análise
Para criar uma nova análise, use POST /api/rafs-ddms/v2/samplesanalysis
curl --request POST \
--url {{DNS}}/api/rafs-ddms/v2/samplesanalysis \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}' \
--data '[
{
"kind": "{{AUTHORITY}}:wks:work-product-component--SamplesAnalysis:1.0.0",
"acl": {
"viewers": [
"{{ACL_DATA_VIEWERS}}"
],
"owners": [
"{{ACL_DATA_OWNERS}}"
]
},
"legal": {
"legaltags": [
"{{DATA_PARTITION_ID}}-{{LEGAL_TAG}}"
],
"otherRelevantDataCountries": [
"IN"
],
"status": "compliant"
},
"tags": {
"NameOfKey": "String value"
},
"data": {
"SampleIDs": [
"{{sample_record_id}}:"
],
"ReportSampleIdentifiers": [
"53B"
],
"AnalysisDate": "2015-01-01",
"LaboratoryIDs": [
"{{organisation_id}}:"
],
"LaboratoryNames": [
"TestLab"
],
"Remarks": [
{
"Remark": "Kentish Knock South 1 - Special Core Analysis (SCAL) Report, Section 6.2 Page 91, 92",
"RemarkSequenceNumber": 1,
"RemarkSource": "RAFSDDMS",
"RemarkDate": "2023-12-21"
}
],
"DatePublished": "2015-01-01",
"ParentSamplesAnalysesReports": [
{
"ParentSamplesAnalysesReportID": "{{sar_record_id}}:"
}
],
"SampleAnalysisTypeIDs": [
"{{DATA_PARTITION_ID}}:reference-data--SampleAnalysisType:NMR:"
],
"SamplesAnalysisCategoryTagIDs": [
"{{DATA_PARTITION_ID}}:reference-data--SamplesAnalysisCategoryTag:GreenCompany.SCAL:"
],
"AvailableSampleAnalysisProperties": [
"SamplesAnalysisID",
"SampleID",
"CumulativeWaterSaturation",
"T2FullySaturated",
"IncrementalPorosity",
"DisplacedFluid",
"EchoSpacing",
"InjectedFluid",
"Porosity",
"Permeability",
"NMRT2Swirr",
"T2CutOff",
"T2Mean",
"Temperature",
"PoreVolume",
"NetConfiningStress"
],
"DDMSDatasets": [],
"Parameters": []
}
}
]'
Resposta de exemplo:
{
"recordCount": 1,
"recordIdVersions": [
"opendes:work-product-component--SamplesAnalysis:1c022fcfa0134607b7c3dbc26f8783cf:1758005811171994"
],
"skippedRecordCount": 0
}
5.2 Obter o esquema de conteúdo
Para obter o esquema de conteúdo, use GET /api/rafs-ddms/v2/samplesanalysis/{analysistype}/data/schema
curl --request GET \
--url {{DNS}}/api/rafs-ddms/v2/samplesanalysis/nmr/data/schema \
--header 'accept: */*;version={{rafsddms-content-schema-version}}' \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'cache-control: no-store' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}'
Resposta de exemplo:
{
"title": "NmrModel100",
"type": "object",
"properties": {
"SamplesAnalysisID": {
"title": "Samples Analysis ID",
"description": "The OSDU Identifier for this SamplesAnalysis.",
"pattern": "^[\\w\\-\\.]+:work-product-component\\-\\-SamplesAnalysis:[\\w\\-\\.\\:\\%]+:[0-9]*$",
"type": "string"
},
"SampleID": {
"title": "Sample ID",
"description": "The OSDU Identifier for the Sample associated with this analysis.",
"pattern": "^[\\w\\-\\.]+:master-data\\-\\-Sample:[\\w\\-\\.\\:\\%]+:[0-9]*$",
"type": "string"
},
"Meta": {
"title": "Meta",
"description": "A meta data item, which allows the association of named properties or property values to a Unit/Measurement/CRS/Azimuth/Time context.",
"example": "",
"type": "array",
"items": {
"anyOf": [
{
"$ref": "#/definitions/Meta"
},
{
"$ref": "#/definitions/Meta1"
},
{
"$ref": "#/definitions/Meta2"
},
{
"$ref": "#/definitions/Meta3"
}
]
}
},
"NMRTest": {
"title": "NMR Test",
"description": "An analysis of rock or fluid samples using Nuclear Magnetic Resonance to assess various properties, including fluid content and pore structure.",
"type": "array",
"items": {
"$ref": "#/definitions/NMRTestItem"
}
}
},
"required": [
"SamplesAnalysisID",
"SampleID",
"Meta"
],
"additionalProperties": false,
"definitions": {
"Meta": {
"title": "Meta",
"type": "object",
"properties": {
"kind": {
"title": "UOM Reference Kind",
"description": "The kind of reference, 'Unit' for FrameOfReferenceUOM.",
"default": "Unit",
"const": "Unit",
"type": "string"
},
"name": {
"title": "UOM Unit Symbol",
"description": "The unit symbol or name of the unit.",
"example": "ft[US]",
"type": "string"
},
"persistableReference": {
"title": "UOM Persistable Reference",
"description": "The self-contained, persistable reference string uniquely identifying the Unit.",
"example": "{\"abcd\":{\"a\":0.0,\"b\":1200.0,\"c\":3937.0,\"d\":0.0},\"symbol\":\"ft[US]\",\"baseMeasurement\":{\"ancestry\":\"L\",\"type\":\"UM\"},\"type\":\"UAD\"}",
"type": "string"
},
"unitOfMeasureID": {
"title": "Unitofmeasureid",
"description": "SRN to unit of measure reference.",
"example": "namespace:reference-data--UnitOfMeasure:ftUS:",
"pattern": "^[\\w\\-\\.]+:reference-data\\-\\-UnitOfMeasure:[\\w\\-\\.\\:\\%]+:[0-9]*$",
"type": "string"
},
"propertyNames": {
"title": "UOM Property Names",
"description": "The list of property names, to which this meta data item provides Unit context to. A full path like \"StructureA.PropertyB\" is required to define a unique context; \"data\" is omitted since frame-of reference normalization only applies to the data block.",
"example": [
"HorizontalDeflection.EastWest",
"HorizontalDeflection.NorthSouth"
],
"type": "array",
"items": {
"type": "string"
}
}
},
"additionalProperties": false
},
"Meta1": {
"title": "Meta1",
"type": "object",
"properties": {
"kind": {
"title": "CRS Reference Kind",
"description": "The kind of reference, constant 'CRS' for FrameOfReferenceCRS.",
"default": "CRS",
"const": "CRS",
"type": "string"
},
"name": {
"title": "CRS Name",
"description": "The name of the CRS.",
"example": "WGS 84 / UTM zone 15N",
"type": "string"
},
"persistableReference": {
"title": "CRS Persistable Reference",
"description": "The self-contained, persistable reference string uniquely identifying the CRS.",
"example": "{\"authCode\":{\"auth\":\"EPSG\",\"code\":\"32615\"},\"name\":\"WGS_1984_UTM_Zone_15N\",\"type\":\"LBC\",\"ver\":\"PE_10_9_1\",\"wkt\":\"PROJCS[\\\"WGS_1984_UTM_Zone_15N\\\",GEOGCS[\\\"GCS_WGS_1984\\\",DATUM[\\\"D_WGS_1984\\\",SPHEROID[\\\"WGS_1984\\\",6378137.0,298.257223563]],PRIMEM[\\\"Greenwich\\\",0.0],UNIT[\\\"Degree\\\",0.0174532925199433]],PROJECTION[\\\"Transverse_Mercator\\\"],PARAMETER[\\\"False_Easting\\\",500000.0],PARAMETER[\\\"False_Northing\\\",0.0],PARAMETER[\\\"Central_Meridian\\\",-93.0],PARAMETER[\\\"Scale_Factor\\\",0.9996],PARAMETER[\\\"Latitude_Of_Origin\\\",0.0],UNIT[\\\"Meter\\\",1.0],AUTHORITY[\\\"EPSG\\\",32615]]\"}",
"type": "string"
},
"coordinateReferenceSystemID": {
"title": "Coordinatereferencesystemid",
"description": "SRN to CRS reference.",
"example": "namespace:reference-data--CoordinateReferenceSystem:Projected:EPSG::32615:",
"pattern": "^[\\w\\-\\.]+:reference-data\\-\\-CoordinateReferenceSystem:[\\w\\-\\.\\:\\%]+:[0-9]*$",
"type": "string"
},
"propertyNames": {
"title": "CRS Property Names",
"description": "The list of property names, to which this meta data item provides CRS context to. A full path like \"StructureA.PropertyB\" is required to define a unique context; \"data\" is omitted since frame-of reference normalization only applies to the data block.",
"example": [
"KickOffPosition.X",
"KickOffPosition.Y"
],
"type": "array",
"items": {
"type": "string"
}
}
},
"required": [
"persistableReference"
],
"additionalProperties": false
},
"Meta2": {
"title": "Meta2",
"type": "object",
"properties": {
"kind": {
"title": "DateTime Reference Kind",
"description": "The kind of reference, constant 'DateTime', for FrameOfReferenceDateTime.",
"default": "DateTime",
"const": "DateTime",
"type": "string"
},
"name": {
"title": "DateTime Name",
"description": "The name of the DateTime format and reference.",
"example": "UTC",
"type": "string"
},
"persistableReference": {
"title": "DateTime Persistable Reference",
"description": "The self-contained, persistable reference string uniquely identifying DateTime reference.",
"example": "{\"format\":\"yyyy-MM-ddTHH:mm:ssZ\",\"timeZone\":\"UTC\",\"type\":\"DTM\"}",
"type": "string"
},
"propertyNames": {
"title": "DateTime Property Names",
"description": "The list of property names, to which this meta data item provides DateTime context to. A full path like \"StructureA.PropertyB\" is required to define a unique context; \"data\" is omitted since frame-of reference normalization only applies to the data block.",
"example": [
"Acquisition.StartTime",
"Acquisition.EndTime"
],
"type": "array",
"items": {
"type": "string"
}
}
},
"required": [
"persistableReference"
],
"additionalProperties": false
},
"Meta3": {
"title": "Meta3",
"type": "object",
"properties": {
"kind": {
"title": "AzimuthReference Reference Kind",
"description": "The kind of reference, constant 'AzimuthReference', for FrameOfReferenceAzimuthReference.",
"default": "AzimuthReference",
"const": "AzimuthReference",
"type": "string"
},
"name": {
"title": "AzimuthReference Name",
"description": "The name of the CRS or the symbol/name of the unit.",
"example": "TrueNorth",
"type": "string"
},
"persistableReference": {
"title": "AzimuthReference Persistable Reference",
"description": "The self-contained, persistable reference string uniquely identifying AzimuthReference.",
"example": "{\"code\":\"TrueNorth\",\"type\":\"AZR\"}",
"type": "string"
},
"propertyNames": {
"title": "AzimuthReference Property Names",
"description": "The list of property names, to which this meta data item provides AzimuthReference context to. A full path like \"StructureA.PropertyB\" is required to define a unique context; \"data\" is omitted since frame-of reference normalization only applies to the data block.",
"example": [
"Bearing"
],
"type": "array",
"items": {
"type": "string"
}
}
},
"required": [
"persistableReference"
],
"additionalProperties": false
},
"CumulativePorosity": {
"title": "CumulativePorosity",
"type": "object",
"properties": {
"Value": {
"title": "Value",
"description": "The porosity value of the sample.",
"type": "number"
},
"PorosityMeasurementTypeID": {
"title": "Porosity Measurement Type ID",
"description": "The type of porosity being measured, e.g. BrineSaturation, HeliumInjection.",
"pattern": "^[\\w\\-\\.]+:reference-data\\-\\-PorosityMeasurementType:[\\w\\-\\.\\:\\%]+:[0-9]*$",
"type": "string"
}
},
"additionalProperties": false
},
"IncrementalPorosity": {
"title": "IncrementalPorosity",
"type": "object",
"properties": {
"Value": {
"title": "Value",
"description": "The porosity value.",
"type": "number"
},
"PorosityMeasurementTypeID": {
"title": "Porosity Measurement Type ID",
"description": "The type of porosity being measured, e.g. BrineSaturation, HeliumInjection.",
"pattern": "^[\\w\\-\\.]+:reference-data\\-\\-PorosityMeasurementType:[\\w\\-\\.\\:\\%]+:[0-9]*$",
"type": "string"
}
},
"additionalProperties": false
},
"NMRTestStep": {
"title": "NMRTestStep",
"type": "object",
"properties": {
"CumulativeWaterSaturation": {
"title": "Cumulative Water Saturation",
"description": "Cumulative water saturation",
"type": "number"
},
"CumulativeVolume": {
"title": "Cumulative Volume",
"description": "Cumulative volume of fluid calculated based on amplitude measurement.",
"type": "number"
},
"CumulativePorosity": {
"title": "Cumulative Porosity",
"description": "Cumulative porosity of the sample.",
"allOf": [
{
"$ref": "#/definitions/CumulativePorosity"
}
]
},
"IncrementalWaterSaturation": {
"title": "Incremental Water Saturation",
"description": "Water saturation increment for this test step.",
"type": "number"
},
"IncrementalPorosity": {
"title": "Incremental Porosity",
"description": "Incremental porosity of the sample.",
"allOf": [
{
"$ref": "#/definitions/IncrementalPorosity"
}
]
},
"IncrementalVolume": {
"title": "Incremental Volume",
"description": "Incremental volume of fluid calculated based on amplitude measurement.",
"type": "number"
},
"T2FullySaturated": {
"title": "T2 Fully Saturated",
"description": "T2 (transverse or spin-spin relaxation) when the sample is fully saturated.",
"type": "number"
},
"T2PartiallySaturated": {
"title": "T2 Partially Saturated",
"description": "T2 (transverse or spin-spin relaxation) when the sample is partially saturated.",
"type": "number"
},
"T1CumulativePorosity": {
"title": "T1 Cumulative Porosity",
"description": "Cumulative porosity of the sample based on T1.",
"type": "number"
},
"T1CumulativeWaterSaturation": {
"title": "T1 Cumulative Water Saturation",
"description": "Cumulative water saturation of the sample based on T1.",
"type": "number"
},
"T1IncrementalPorosity": {
"title": "T1 Incremental Porosity",
"description": "Incremental porosity of the sample based on T1.",
"type": "number"
},
"T1IncrementalWaterSaturation": {
"title": "T1 Incremental Water Saturation",
"description": "Incremental water saturation of the sample based on T1.",
"type": "number"
}
},
"additionalProperties": false
},
"PorosityItem": {
"title": "PorosityItem",
"type": "object",
"properties": {
"Value": {
"title": "Value",
"description": "The porosity value.",
"type": "number"
},
"PorosityMeasurementTypeID": {
"title": "Porosity Measurement Type ID",
"description": "The classification of porosity measured in the NMR test, which could be based on the method of measurement or the characteristics of the pore spaces.",
"pattern": "^[\\w\\-\\.]+:reference-data\\-\\-PorosityMeasurementType:[\\w\\-\\.\\:\\%]+:[0-9]*$",
"type": "string"
}
},
"additionalProperties": false
},
"PermeabilityItem": {
"title": "PermeabilityItem",
"type": "object",
"properties": {
"Value": {
"title": "Value",
"type": "number"
},
"PermeabilityMeasurementTypeID": {
"title": "Permeability Measurement Type ID",
"description": "The type of permeability being measured, e.g. Gas, PulseDecay, Klinkenberg.",
"pattern": "^[\\w\\-\\.]+:reference-data\\-\\-PermeabilityMeasurementType:[\\w\\-\\.\\:\\%]+:[0-9]*$",
"type": "string"
}
},
"additionalProperties": false
},
"NMRSummaryData": {
"title": "NMRSummaryData",
"type": "object",
"properties": {
"BoundFluidBVI": {
"title": "Bound Fluid BVI",
"description": "Bound fluid following sample desaturation, relative to pore volume.",
"type": "number"
},
"NMRT2BoundFluidRelativetoPoreVolume": {
"title": "NMRT2BoundFluidRelativetoPoreVolume",
"description": "NMR T2 bound fluid relative to pore volume.",
"type": "number"
},
"DisplacedFluidID": {
"title": "Displaced Fluid ID",
"description": "The type of fluid displaced during the NMR test, which can influence the interpretation of pore and fluid properties.",
"pattern": "^[\\w\\-\\.]+:reference-data\\-\\-DisplacedFluidType:[\\w\\-\\.\\:\\%]+:[0-9]*$",
"type": "string"
},
"EchoSpacing": {
"title": "Echo Spacing",
"description": "The time interval between successive echoes in a sequence of pulse and acquisition events.",
"type": "number"
},
"FreeFluidFFI": {
"title": "Free Fluid FFI",
"description": "Free fluid following sample desaturation, relative to pore volume.",
"type": "number"
},
"NMRT2FreeFluid": {
"title": "NMR T2 Free Fluid",
"description": "The amount of NMR T2 free fluid expressed relative to pore volume.",
"type": "number"
},
"InjectionFluidID": {
"title": "Injected Fluid ID",
"description": "The type of fluid injected into the sample during the NMR test, used to assess how different fluids affect the sample's magnetic resonance properties.",
"pattern": "^[\\w\\-\\.]+:reference-data\\-\\-SampleInjectionFluidType:[\\w\\-\\.\\:\\%]+:[0-9]*$",
"type": "string"
},
"Porosity": {
"title": "Porosity",
"description": "The amount of pore space relative to the volume of a sample.",
"type": "array",
"items": {
"$ref": "#/definitions/PorosityItem"
}
},
"Permeability": {
"title": "Permeability",
"description": "The permeability of the sample as determined by the NMR test, reflecting the ability of fluids to flow through the rock or material.",
"type": "array",
"items": {
"$ref": "#/definitions/PermeabilityItem"
}
},
"Swirr": {
"title": "Irreducible Water Saturation",
"description": "The irreducible water saturation relative to pore volume of the sample.",
"type": "number"
},
"NMRT2Swirr": {
"title": "NMR T2 Irreducible Water Saturation",
"description": "NMR T2 irreducible water saturation relative to pore volume of the sample.",
"type": "number"
},
"T2CutOff": {
"title": "T2 Cut Off",
"description": "Cut off of transverse relaxation time (T2).",
"type": "number"
},
"T2Mean": {
"title": "T2 Mean",
"description": "Average of T2 relaxation time.",
"type": "number"
},
"Temperature": {
"title": "Temperature",
"description": "The temperature of the test environment.",
"type": "number"
},
"PoreVolume": {
"title": "Pore Volume",
"description": "The pore volume of the sample.",
"type": "number"
},
"NetConfiningStress": {
"title": "Net Confining Stress",
"description": "The pressure exerted on a sample from its environment, minus the pore pressure within the sample.",
"type": "number"
}
},
"additionalProperties": false
},
"NMRTestItem": {
"title": "NMRTestItem",
"type": "object",
"properties": {
"TestConditionID": {
"title": "Test Condition ID",
"description": "The sample condition at which the NMR test was conducted.",
"pattern": "^[\\w\\-\\.]+:reference-data\\-\\-NMRTestCondition:[\\w\\-\\.\\:\\%]+:[0-9]*$",
"type": "string"
},
"NMRTestSteps": {
"title": "NMR Test Steps",
"description": "An array capturing the individual test steps for this NMR analysis.",
"type": "array",
"items": {
"$ref": "#/definitions/NMRTestStep"
}
},
"NMRSummaryData": {
"title": "NMR Summary Data",
"description": "A summary of results from the NMR test, providing key metrics and findings related to the analysis.",
"allOf": [
{
"$ref": "#/definitions/NMRSummaryData"
}
]
}
},
"additionalProperties": false
}
}
}
5.3 Adicionar dados à análise de amostra
Para adicionar dados, use POST /api/rafs-ddms/v2/samplesanalysis/{record_id}/data/{analysistype}
curl --request POST \
--url {{DNS}}/api/rafs-ddms/v2/samplesanalysis/opendes:work-product-component--SamplesAnalysis:1c022fcfa0134607b7c3dbc26f8783cf/data/nmr \
--header 'accept: */*;version={{rafsddms-content-schema-version}}' \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}' \
--data '{
"columns": [
"SamplesAnalysisID",
"SampleID",
"Meta",
"NMRTest"
],
"index": [
0
],
"data": [
[
"{{nmr_record_id}}:",
"{{sample_record_id}}:",
[
{
"kind": "Unit",
"name": "degree Fahrenheit",
"unitOfMeasureID": "{{DATA_PARTITION_ID}}:reference-data--UnitOfMeasure:degF:",
"propertyNames": [
"NMRSummaryData.Temperature"
]
},
{
"kind": "Unit",
"name": "pound-force per square inch",
"unitOfMeasureID": "{{DATA_PARTITION_ID}}:reference-data--UnitOfMeasure:psi:",
"propertyNames": [
"NMRSummaryData.NetConfiningStress"
]
},
{
"kind": "Unit",
"name": "millidarcy",
"unitOfMeasureID": "{{DATA_PARTITION_ID}}:reference-data--UnitOfMeasure:mD:",
"propertyNames": [
"NMRSummaryData.Permeability.Value"
]
},
{
"kind": "Unit",
"name": "cubic centimetre",
"unitOfMeasureID": "{{DATA_PARTITION_ID}}:reference-data--UnitOfMeasure:cm3:",
"propertyNames": [
"NMRTestSteps[*].CumulativeVolume",
"NMRTestSteps[*].IncrementalVolume",
"NMRSummaryData.BoundFluidBVI",
"NMRSummaryData.PoreVolume"
]
},
{
"kind": "Unit",
"name": "centimetre",
"unitOfMeasureID": "{{DATA_PARTITION_ID}}:reference-data--UnitOfMeasure:cm:",
"propertyNames": [
"NMRSummaryData.EchoSpacing"
]
},
{
"kind": "Unit",
"name": "milliseconds",
"unitOfMeasureID": "{{DATA_PARTITION_ID}}:reference-data--UnitOfMeasure:ms:",
"propertyNames": [
"NMRTestSteps[*].T2FullySaturated",
"NMRTestSteps[*].T2PartiallySaturated",
"NMRSummaryData.T2CutOff",
"NMRSummaryData.T2Mean"
]
},
{
"kind": "Unit",
"name": "percent",
"unitOfMeasureID": "{{DATA_PARTITION_ID}}:reference-data--UnitOfMeasure:%25:",
"propertyNames": [
"NMRTestSteps[*].CumulativeWaterSaturation",
"NMRTestSteps[*].CumulativePorosity.Value",
"NMRTestSteps[*].IncrementalWaterSaturation",
"NMRTestSteps[*].IncrementalPorosity.Value",
"NMRTestSteps[*].T1CumulativePorosity",
"NMRTestSteps[*].T1CumulativeWaterSaturation",
"NMRTestSteps[*].T1IncrementalPorosity",
"NMRTestSteps[*].T1IncrementalWaterSaturation",
"NMRSummaryData.NMRT2BoundFluidRelativetoPoreVolume",
"NMRSummaryData.FreeFluidFFI",
"NMRSummaryData.NMRT2FreeFluid",
"NMRSummaryData.Porosity.Value",
"NMRSummaryData.Swirr",
"NMRSummaryData.NMRT2Swirr"
]
}
],
[
{
"TestConditionID": "{{DATA_PARTITION_ID}}:reference-data--NMRTestCondition:FullySaturated:",
"NMRTestSteps": [
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 0.100,
"IncrementalPorosity": {
"Value": 0.000,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 0.126,
"IncrementalPorosity": {
"Value": 0.000,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 0.158,
"IncrementalPorosity": {
"Value": 0.000,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 0.200,
"IncrementalPorosity": {
"Value": 0.000,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 0.251,
"IncrementalPorosity": {
"Value": 0.000,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 0.316,
"IncrementalPorosity": {
"Value": 0.000,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 0.398,
"IncrementalPorosity": {
"Value": 0.000,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 0.501,
"IncrementalPorosity": {
"Value": 0.000,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 0.631,
"IncrementalPorosity": {
"Value": 0.000,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 0.794,
"IncrementalPorosity": {
"Value": 0.000,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 1.00,
"IncrementalPorosity": {
"Value": 0.019,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 1.26,
"IncrementalPorosity": {
"Value": 0.040,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 1.58,
"IncrementalPorosity": {
"Value": 0.057,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 2.00,
"IncrementalPorosity": {
"Value": 0.071,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 2.51,
"IncrementalPorosity": {
"Value": 0.085,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 3.16,
"IncrementalPorosity": {
"Value": 0.1,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 3.98,
"IncrementalPorosity": {
"Value": 0.119,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 5.01,
"IncrementalPorosity": {
"Value": 0.136,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 6.31,
"IncrementalPorosity": {
"Value": 0.147,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 7.94,
"IncrementalPorosity": {
"Value": 0.148,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 10,
"IncrementalPorosity": {
"Value": 0.142,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 12.6,
"IncrementalPorosity": {
"Value": 0.143,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 15.8,
"IncrementalPorosity": {
"Value": 0.164,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 20,
"IncrementalPorosity": {
"Value": 0.217,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 25.1,
"IncrementalPorosity": {
"Value": 0.3,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 31.6,
"IncrementalPorosity": {
"Value": 0.403,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 39.8,
"IncrementalPorosity": {
"Value": 0.499,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 50.1,
"IncrementalPorosity": {
"Value": 0.559,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 63.1,
"IncrementalPorosity": {
"Value": 0.562,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 79.4,
"IncrementalPorosity": {
"Value": 0.518,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 100,
"IncrementalPorosity": {
"Value": 0.49,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 126,
"IncrementalPorosity": {
"Value": 0.595,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 158,
"IncrementalPorosity": {
"Value": 0.979,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 200,
"IncrementalPorosity": {
"Value": 1.75,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 251,
"IncrementalPorosity": {
"Value": 2.895,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 316,
"IncrementalPorosity": {
"Value": 4.217,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 398,
"IncrementalPorosity": {
"Value": 5.335,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 501,
"IncrementalPorosity": {
"Value": 5.784,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 631,
"IncrementalPorosity": {
"Value": 5.162,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 794,
"IncrementalPorosity": {
"Value": 3.267,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 1000,
"IncrementalPorosity": {
"Value": 0.139,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 1259,
"IncrementalPorosity": {
"Value": 0,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 1585,
"IncrementalPorosity": {
"Value": 0,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 1995,
"IncrementalPorosity": {
"Value": 0,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 2512,
"IncrementalPorosity": {
"Value": 0,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 3162,
"IncrementalPorosity": {
"Value": 0,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 3981,
"IncrementalPorosity": {
"Value": 0,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 5012,
"IncrementalPorosity": {
"Value": 0,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 6310,
"IncrementalPorosity": {
"Value": 0,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 7943,
"IncrementalPorosity": {
"Value": 0,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
},
{
"CumulativeWaterSaturation": 100.0,
"T2FullySaturated": 10000,
"IncrementalPorosity": {
"Value": 0,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:BrineSaturation:"
}
}
],
"NMRSummaryData": {
"DisplacedFluidID": "{{DATA_PARTITION_ID}}:reference-data--DisplacedFluidType:Brine:",
"EchoSpacing": 0.2,
"InjectionFluidID": "{{DATA_PARTITION_ID}}:reference-data--SampleInjectionFluidType:Brine:",
"Porosity": [
{
"Value": 35.5,
"PorosityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PorosityMeasurementType:HeliumInjection:"
}
],
"Permeability": [
{
"Value": 4740,
"PermeabilityMeasurementTypeID": "{{DATA_PARTITION_ID}}:reference-data--PermeabilityMeasurementType:Air:"
}
],
"NMRT2Swirr": 8.7,
"T2CutOff": 44.1,
"T2Mean": 281.2,
"Temperature": 30,
"PoreVolume": 0.0,
"NetConfiningStress": 800.0
}
}
]
]
]
}'
Resposta de exemplo:
{
"ddms_urn": "urn://rafs/opendes:work-product-component--SamplesAnalysis:1c022fcfa0134607b7c3dbc26f8783cf/samplesanalysis/nmr/1.0.0/2fb9788f-043c-4f32-b9fa-29a2cb218d3a",
"updated_wpc_id": [
"opendes:work-product-component--SamplesAnalysis:1c022fcfa0134607b7c3dbc26f8783cf:1758009160406872"
]
}
5.4 Obtenha o conjunto de dados de análise de exemplo
Para obter dados de registro, use GET /api/rafs-ddms/v2/samplesanalysis/{record_id}/data/{analysistype}/{content_id}
curl --request GET \
--url {{DNS}}/api/rafs-ddms/v2/samplesanalysis/opendes:work-product-component--SamplesAnalysis:1c022fcfa0134607b7c3dbc26f8783cf/data/nmr/2fb9788f-043c-4f32-b9fa-29a2cb218d3a \
--header 'accept: */*;version={{rafsddms-content-schema-version}}' \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'cache-control: no-store' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}'
{
"columns": [
"SamplesAnalysisID",
"SampleID",
"Meta",
"NMRTest"
],
"index": [
0
],
"data": [
[
"opendes:work-product-component--SamplesAnalysis:1c022fcfa0134607b7c3dbc26f8783cf:",
"opendes:master-data--Sample:KKS-CORE-PLUG-001:",
[
{
"kind": "Unit",
"name": "degree Fahrenheit",
"propertyNames": [
"NMRSummaryData.Temperature"
],
"unitOfMeasureID": "opendes:reference-data--UnitOfMeasure:degF:"
},
{
"kind": "Unit",
"name": "pound-force per square inch",
"propertyNames": [
"NMRSummaryData.NetConfiningStress"
],
"unitOfMeasureID": "opendes:reference-data--UnitOfMeasure:psi:"
},
{
"kind": "Unit",
"name": "millidarcy",
"propertyNames": [
"NMRSummaryData.Permeability.Value"
],
"unitOfMeasureID": "opendes:reference-data--UnitOfMeasure:mD:"
},
{
"kind": "Unit",
"name": "cubic centimetre",
"propertyNames": [
"NMRTestSteps[*].CumulativeVolume",
"NMRTestSteps[*].IncrementalVolume",
"NMRSummaryData.BoundFluidBVI",
"NMRSummaryData.PoreVolume"
],
"unitOfMeasureID": "opendes:reference-data--UnitOfMeasure:cm3:"
},
{
"kind": "Unit",
"name": "centimetre",
"propertyNames": [
"NMRSummaryData.EchoSpacing"
],
"unitOfMeasureID": "opendes:reference-data--UnitOfMeasure:cm:"
},
{
"kind": "Unit",
"name": "milliseconds",
"propertyNames": [
"NMRTestSteps[*].T2FullySaturated",
"NMRTestSteps[*].T2PartiallySaturated",
"NMRSummaryData.T2CutOff",
"NMRSummaryData.T2Mean"
],
"unitOfMeasureID": "opendes:reference-data--UnitOfMeasure:ms:"
},
{
"kind": "Unit",
"name": "percent",
"propertyNames": [
"NMRTestSteps[*].CumulativeWaterSaturation",
"NMRTestSteps[*].CumulativePorosity.Value",
"NMRTestSteps[*].IncrementalWaterSaturation",
"NMRTestSteps[*].IncrementalPorosity.Value",
"NMRTestSteps[*].T1CumulativePorosity",
"NMRTestSteps[*].T1CumulativeWaterSaturation",
"NMRTestSteps[*].T1IncrementalPorosity",
"NMRTestSteps[*].T1IncrementalWaterSaturation",
"NMRSummaryData.NMRT2BoundFluidRelativetoPoreVolume",
"NMRSummaryData.FreeFluidFFI",
"NMRSummaryData.NMRT2FreeFluid",
"NMRSummaryData.Porosity.Value",
"NMRSummaryData.Swirr",
"NMRSummaryData.NMRT2Swirr"
],
"unitOfMeasureID": "opendes:reference-data--UnitOfMeasure:%25:"
}
],
[
{
"NMRSummaryData": {
"DisplacedFluidID": "opendes:reference-data--DisplacedFluidType:Brine:",
"EchoSpacing": 0.2,
"InjectionFluidID": "opendes:reference-data--SampleInjectionFluidType:Brine:",
"NMRT2Swirr": 8.7,
"NetConfiningStress": 800,
"Permeability": [
{
"PermeabilityMeasurementTypeID": "opendes:reference-data--PermeabilityMeasurementType:Air:",
"Value": 4740
}
],
"PoreVolume": 0,
"Porosity": [
{
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:HeliumInjection:",
"Value": 35.5
}
],
"T2CutOff": 44.1,
"T2Mean": 281.2,
"Temperature": 30
},
"NMRTestSteps": [
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.1
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.126
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.158
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.2
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.251
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.316
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.398
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.501
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.631
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.794
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.019
},
"T2FullySaturated": 1
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.04
},
"T2FullySaturated": 1.26
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.057
},
"T2FullySaturated": 1.58
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.071
},
"T2FullySaturated": 2
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.085
},
"T2FullySaturated": 2.51
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.1
},
"T2FullySaturated": 3.16
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.119
},
"T2FullySaturated": 3.98
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.136
},
"T2FullySaturated": 5.01
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.147
},
"T2FullySaturated": 6.31
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.148
},
"T2FullySaturated": 7.94
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.142
},
"T2FullySaturated": 10
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.143
},
"T2FullySaturated": 12.6
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.164
},
"T2FullySaturated": 15.8
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.217
},
"T2FullySaturated": 20
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.3
},
"T2FullySaturated": 25.1
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.403
},
"T2FullySaturated": 31.6
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.499
},
"T2FullySaturated": 39.8
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.559
},
"T2FullySaturated": 50.1
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.562
},
"T2FullySaturated": 63.1
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.518
},
"T2FullySaturated": 79.4
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.49
},
"T2FullySaturated": 100
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.595
},
"T2FullySaturated": 126
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.979
},
"T2FullySaturated": 158
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 1.75
},
"T2FullySaturated": 200
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 2.895
},
"T2FullySaturated": 251
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 4.217
},
"T2FullySaturated": 316
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 5.335
},
"T2FullySaturated": 398
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 5.784
},
"T2FullySaturated": 501
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 5.162
},
"T2FullySaturated": 631
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 3.267
},
"T2FullySaturated": 794
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.139
},
"T2FullySaturated": 1000
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 1259
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 1585
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 1995
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 2512
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 3162
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 3981
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 5012
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 6310
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 7943
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 10000
}
],
"TestConditionID": "opendes:reference-data--NMRTestCondition:FullySaturated:"
}
]
]
]
}
Pesquisar dados de exemplo para análise
Para pesquisar dados de uma versão específica do esquema do RAFS DDMS, use GET /api/rafs-ddms/v2/samplesanalysis/{analysistype}/search/data
curl --request GET \
--url {DNS}/api/rafs-ddms/v2/samplesanalysis/nmr/search/data \
--header 'accept: */*;version={{rafsddms-content-schema-version}}' \
--header 'authorization: Bearer {{ACCESS_TOKEN}}' \
--header 'cache-control: no-store' \
--header 'content-type: application/json' \
--header 'data-partition-id: {{DATA_PARTITION_ID}}'
Resposta de exemplo:
{
"result": {
"columns": [
"SamplesAnalysisID",
"SampleID",
"Meta",
"NMRTest"
],
"index": [
0
],
"data": [
[
"opendes:work-product-component--SamplesAnalysis:1c022fcfa0134607b7c3dbc26f8783cf:",
"opendes:master-data--Sample:KKS-CORE-PLUG-001:",
[
{
"kind": "Unit",
"name": "degree Fahrenheit",
"propertyNames": [
"NMRSummaryData.Temperature"
],
"unitOfMeasureID": "opendes:reference-data--UnitOfMeasure:degF:"
},
{
"kind": "Unit",
"name": "pound-force per square inch",
"propertyNames": [
"NMRSummaryData.NetConfiningStress"
],
"unitOfMeasureID": "opendes:reference-data--UnitOfMeasure:psi:"
},
{
"kind": "Unit",
"name": "millidarcy",
"propertyNames": [
"NMRSummaryData.Permeability.Value"
],
"unitOfMeasureID": "opendes:reference-data--UnitOfMeasure:mD:"
},
{
"kind": "Unit",
"name": "cubic centimetre",
"propertyNames": [
"NMRTestSteps[*].CumulativeVolume",
"NMRTestSteps[*].IncrementalVolume",
"NMRSummaryData.BoundFluidBVI",
"NMRSummaryData.PoreVolume"
],
"unitOfMeasureID": "opendes:reference-data--UnitOfMeasure:cm3:"
},
{
"kind": "Unit",
"name": "centimetre",
"propertyNames": [
"NMRSummaryData.EchoSpacing"
],
"unitOfMeasureID": "opendes:reference-data--UnitOfMeasure:cm:"
},
{
"kind": "Unit",
"name": "milliseconds",
"propertyNames": [
"NMRTestSteps[*].T2FullySaturated",
"NMRTestSteps[*].T2PartiallySaturated",
"NMRSummaryData.T2CutOff",
"NMRSummaryData.T2Mean"
],
"unitOfMeasureID": "opendes:reference-data--UnitOfMeasure:ms:"
},
{
"kind": "Unit",
"name": "percent",
"propertyNames": [
"NMRTestSteps[*].CumulativeWaterSaturation",
"NMRTestSteps[*].CumulativePorosity.Value",
"NMRTestSteps[*].IncrementalWaterSaturation",
"NMRTestSteps[*].IncrementalPorosity.Value",
"NMRTestSteps[*].T1CumulativePorosity",
"NMRTestSteps[*].T1CumulativeWaterSaturation",
"NMRTestSteps[*].T1IncrementalPorosity",
"NMRTestSteps[*].T1IncrementalWaterSaturation",
"NMRSummaryData.NMRT2BoundFluidRelativetoPoreVolume",
"NMRSummaryData.FreeFluidFFI",
"NMRSummaryData.NMRT2FreeFluid",
"NMRSummaryData.Porosity.Value",
"NMRSummaryData.Swirr",
"NMRSummaryData.NMRT2Swirr"
],
"unitOfMeasureID": "opendes:reference-data--UnitOfMeasure:%25:"
}
],
[
{
"NMRSummaryData": {
"DisplacedFluidID": "opendes:reference-data--DisplacedFluidType:Brine:",
"EchoSpacing": 0.2,
"InjectionFluidID": "opendes:reference-data--SampleInjectionFluidType:Brine:",
"NMRT2Swirr": 8.7,
"NetConfiningStress": 800,
"Permeability": [
{
"PermeabilityMeasurementTypeID": "opendes:reference-data--PermeabilityMeasurementType:Air:",
"Value": 4740
}
],
"PoreVolume": 0,
"Porosity": [
{
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:HeliumInjection:",
"Value": 35.5
}
],
"T2CutOff": 44.1,
"T2Mean": 281.2,
"Temperature": 30
},
"NMRTestSteps": [
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.1
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.126
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.158
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.2
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.251
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.316
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.398
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.501
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.631
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 0.794
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.019
},
"T2FullySaturated": 1
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.04
},
"T2FullySaturated": 1.26
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.057
},
"T2FullySaturated": 1.58
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.071
},
"T2FullySaturated": 2
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.085
},
"T2FullySaturated": 2.51
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.1
},
"T2FullySaturated": 3.16
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.119
},
"T2FullySaturated": 3.98
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.136
},
"T2FullySaturated": 5.01
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.147
},
"T2FullySaturated": 6.31
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.148
},
"T2FullySaturated": 7.94
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.142
},
"T2FullySaturated": 10
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.143
},
"T2FullySaturated": 12.6
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.164
},
"T2FullySaturated": 15.8
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.217
},
"T2FullySaturated": 20
},
{
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"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.3
},
"T2FullySaturated": 25.1
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.403
},
"T2FullySaturated": 31.6
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.499
},
"T2FullySaturated": 39.8
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.559
},
"T2FullySaturated": 50.1
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.562
},
"T2FullySaturated": 63.1
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.518
},
"T2FullySaturated": 79.4
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.49
},
"T2FullySaturated": 100
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.595
},
"T2FullySaturated": 126
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.979
},
"T2FullySaturated": 158
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 1.75
},
"T2FullySaturated": 200
},
{
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"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 2.895
},
"T2FullySaturated": 251
},
{
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"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 4.217
},
"T2FullySaturated": 316
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 5.335
},
"T2FullySaturated": 398
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 5.784
},
"T2FullySaturated": 501
},
{
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"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 5.162
},
"T2FullySaturated": 631
},
{
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"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 3.267
},
"T2FullySaturated": 794
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0.139
},
"T2FullySaturated": 1000
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 1259
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 1585
},
{
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"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 1995
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 2512
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 3162
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 3981
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 5012
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 6310
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 7943
},
{
"CumulativeWaterSaturation": 100,
"IncrementalPorosity": {
"PorosityMeasurementTypeID": "opendes:reference-data--PorosityMeasurementType:BrineSaturation:",
"Value": 0
},
"T2FullySaturated": 10000
}
],
"TestConditionID": "opendes:reference-data--NMRTestCondition:FullySaturated:"
}
]
]
]
},
"offset": 0,
"page_limit": 100,
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}
Resolução de problemas
Para solucionar problemas, examine os logs de diagnóstico OEPDataplaneLogs no seu espaço de trabalho do Log Analytics. Esses logs fornecem informações detalhadas sobre operações de DDMS da RAFS e podem ajudar a identificar erros ou comportamentos inesperados. No portal do Azure, navegue até o recurso do Azure Data Manager para Energia, selecione As configurações de diagnóstico na seção Monitoramento e escolha a Rock and Fluid Samples DDMS Logs categoria.
Consulta Kusto de exemplo:
OEPDataplaneLogs
| where Category == "RafsDdmsLogs"
| project TenantId, TimeGenerated, Message, _ResourceId
Resposta Kusto de exemplo:
| ID do Inquilino (TenantId) | HoraGerada [UTC] | Message | _IdentificadorDeRecurso |
|---|---|---|---|
| aaaabbbb-0000-cccc-1111-dddd2222eeee | 2025-10-21 13:33:12.495 | 2025-10-21 13:33:12,495 [11][INFO] --- {correlation-id=rafs-ddms-7f9c2e1a-4b2d-4e3a-8c1d-9a2b3c4d5e6f} uvicorn.access: 127.0.0.6:32997 - "GET /api/rafs-ddms/healthz HTTP/1.1" 200 | /subscriptions/aaaa0a0a-bb1b-cc2c-dd3d-eeeeee4e4e4e4e/resourcegroups/test-rg/providers/microsoft.openenergyplatform/energyservices/adme-instance |
Conteúdo relacionado
Tutorial da comunidade OSDU da RAFS
Próxima etapa
Prosseguir para o próximo tutorial: