Cold Holding
Critical Control Point
Food Safety Management System (FSMS) – Technical Documentation
1. Introduction
Cold Holding as a Critical Control Point
Cold holding is the process of maintaining ready-to-eat or ready-to-serve foods at safe chilled temperatures, typically at or below 5°C. It is a key component of food service operations where temperature-sensitive foods must be presented to customers in a safe condition, without allowing microbiological risks to escalate.
This includes:
Salads and sandwich components
Deli meats and cheeses
Chilled desserts
Sushi, cold seafood, and dairy-based items
Pre-plated entrées awaiting service
Cold holding is designated as a Critical Control Point (CCP) in most HACCP systems due to its role in preventing bacterial growth in foods that are not subsequently cooked or reheated.
2. Hazards
Microbiological Hazards Controlled by Cold Holding
Chilled foods are especially vulnerable to microbial contamination and growth if held at unsafe temperatures. Holding them at or below 5°C significantly slows the growth of pathogens such as:
Listeria monocytogenes
Salmonella spp.
Escherichia coli O157:H7
Campylobacter spp.
Foods held between 5°C and 60°C enter the temperature danger zone, which promotes rapid bacterial multiplication and raises the risk of foodborne illness.
3. Critical Limits
Critical Limit for Cold Holding
Control Parameter
Standard
Maximum temperature
≤ 5°C
Monitoring frequency
At setup and periodically during service
Monitoring method
Thermal image with surface temp detection
Any food found to be held above 5°C during cold holding must be evaluated for time exposure and discarded or escalated per corrective action procedures.
4. HACCP Audit Table
Step
Hazard
Control Measure
CCP?
Critical Limit
Monitoring Method
Cold holding
Pathogen growth in chilled foods
Maintain temperature ≤ 5°C
Yes
≤ 5°C
Thermal image + AI temp validation
Lack of documentation or evidence
Image and timestamp logging
Yes
Record must be captured
Didge Platform submission (auto-logged)
5. Use Cases
Typical Cold Holding Use Cases
Food is prepared and pre-chilled (e.g., salads, desserts)
Transferred into:
Cold displays
Refrigerated wells
Chilled bain-maries
Ice beds or blast chillers
Customer self-service or staff plating occurs during the service window
Food is not reheated before service and therefore must remain at safe chilled temperatures until consumption
6. Compliance
AI + Thermal Imaging for Cold Holding Compliance
Step 1: Capture the Image
A thermal image is taken of the cold-holding unit or display (e.g., salad bar)
The image records:
The surface temperature of the food
Visual confirmation of presentation and holding environment
Contextual information (e.g., tray, plate, refrigeration unit)
Step 2: AI Analysis
The image is sent to the Didge Platform
AI extracts and populates:
Exact surface temperature from the thermal data
Food item and category (e.g., dairy, seafood, vegetable)
Portion count (if identifiable)
Container type (plate, tray, gastronorm)
Service location (e.g., cold pass, buffet)
Timestamp and metadata from the device
Step 3: Auto-Submission to FSMS Platform
The populated data is submitted into the Didge Platform as a unique operation instance
All relevant fields are stored for traceability:
Food item
Temperature
Service equipment
Serving format
Number of portions
Image evidence
Date/time stamp
7. Benefits
Benefits of AI & Imaging in Cold Holding Control
High Efficiency for Frontline Staff
Quick image capture replaces manual checks and logs
Allows high-frequency monitoring without effort
Data-Rich, Evidence-Based Submissions
Images include thermal and visual data, forming verifiable records
Large sample sizes easily generated across all meal periods
Regulatory & Audit Compliance
Fully supports:
ISO 22000 (documented CCP validation)
Codex HACCP (time/temperature safety)
Local food safety regulations
Didge enables:
Web-based reports
Data table aggregation
Export to PDF, Excel, or CSV
Visual Monitoring of Food Integrity
Detects if chilled items appear compromised (e.g., sweating, condensation)
Identifies if products are improperly displayed or partially exposed
8. Summary
Summary: Cold Holding CCP Compliance Using Thermal Imaging + AI
Integrating thermal imaging and AI processing into cold holding procedures enables modern, defensible, and scalable compliance with CCP #6. This process ensures:
Chilled food is documented at ≤ 5°C
Records are visual, timestamped, and automatically stored
Submissions are easy for frontline staff
Performance data and audit records are readily available
This approach significantly reduces administrative burden, increases accountability, and ensures safe service of cold foods at scale.
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