Cooking guidelines

25US CA

CONV PASTRY

Shelf

Temp °F

Temp °C

Time (min)

Baking

 

 

 

 

 

 

 

 

 

 

 

Pastry shell

baked ‘blind’

4

350

175

20-30

Pumpkin pie

bake pastry ‘blind’ then

4 then 2

350 then

175 then

20-30 then

add filling

375

190

30-35

 

 

Baked cheesecake

(in ‘water bath’)

3

300

150

55-60

Quiche

bake pastry ‘blind’ then

4

350

175

20-30 then

add filling

20-30

 

 

 

 

Pizza

from scratch

4

425

215

10-15

frozen

4

350

175

18-25

 

Crème caramel

(in ‘water bath’)

3

350

175

35-40

Crème brulee

(in ‘water bath’)

3

275

135

40-45

PASTRY BAKE

Shelf

Temp °F

Temp °C

Time (min)

Baking

 

 

 

 

 

 

 

 

 

 

 

Pie crust

baked ‘blind’

4

375

190

20-30

English custard tart

 

2

430 then

220 then

10 then 30

 

300

150

 

 

 

 

Baked cheesecake

(in ‘water bath’)

3

325

160

55-60

Quiche

bake pastry ‘blind’ then

4

375

190

20-30 then

add filling

30-35

 

 

 

 

Crème caramel

(in ‘water bath’)

3

350

175

35-40

Crème brulee

(in ‘water bath’)

3

275

135

40-45

Rich fruit cake

 

4

275-300

135-150

3-6 hrs

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Image 27
DCS WODU30, WOUD230, WOU130, WOSU30 manual Conv Pastry, Pastry Bake, Shelf Temp F Temp C Time min Baking

WODU30, WOSU30, WOU130, WOUD230 specifications

DCS WOUD230 and WOU130 are advanced air quality monitoring devices designed to provide real-time data on environmental conditions. These systems represent the latest in monitoring technology, catering to a variety of applications, from industrial settings to urban environments.

The DCS WOUD230 is equipped with a high-precision sensor suite that measures a range of pollutants, including particulate matter (PM2.5 and PM10), nitrogen dioxide (NO2), sulfur dioxide (SO2), and ozone (O3). Its ability to detect these pollutants allows for comprehensive air quality assessments, making it an excellent choice for regulatory compliance and environmental research.

On the other hand, the DCS WOU130 is designed with energy efficiency in mind. It utilizes low-power technologies that ensure continuous operation without excessive energy consumption. This makes it suitable for deployment in remote locations where power supply may be limited. Both devices feature ruggedized designs, making them highly durable and capable of withstanding harsh environmental conditions.

One of the standout features of both the WOUD230 and WOU130 is their connectivity options. They are equipped with Wi-Fi and cellular communication capabilities, enabling seamless data transfer to cloud-based platforms. This allows users to access real-time data from anywhere in the world through a user-friendly interface. Additionally, both models can be integrated with existing environmental monitoring systems, providing flexibility and scalability.

Another key characteristic of these devices is their advanced data analytics capabilities. They come with built-in algorithms that not only collect data but analyze it to identify trends and patterns in air quality over time. This functionality is essential for researchers and policymakers who need to make informed decisions based on reliable data.

Moreover, the WOUD230 and WOU130 include alert systems that notify users of sudden changes in air quality, facilitating timely responses to potential hazards. This feature is particularly important in urban areas where pollution levels can fluctuate rapidly due to traffic, construction, or weather conditions.

In conclusion, the DCS WOUD230 and WOU130 air quality monitors are powerful tools equipped with cutting-edge technologies that provide reliable and actionable environmental data. Their combination of precision, connectivity, and durability makes them indispensable for anyone looking to monitor air quality effectively. Whether for industrial compliance, scientific research, or public health awareness, these devices play a critical role in understanding and improving our environment.