„ Save Energy and Resources with BRAUMAT Analysis and Options

Seite 2V20 Save Energy and Resources with BRAUMAT Energy- consumption Key figures 3.7 hl water / hl beer PINCH Analysis Theoretical analysis of the energy flows Identification of heat and cold streams

Seite 3V20 Save Energy and Resources with BRAUMAT Background Reasons for an energy management system  Reduce energy costs (94%)  Improvement of production conditions (15%)  Improvement of working conditions (20%)  Increase the reliability (10%)  Improve product quality (10%)  Real estate appreciation (19%)  Contribution to climate protection (48%)  Protection against rising energy prices (55%)  Image proft (10%)

Seite 4V20 Save Energy and Resources with BRAUMAT Measures in a Brewery Energy saving and cost saving measures  At current energy-peaks switch loads off of plant parts (refrigerant compressors, pressure air compressors), as long as sufficient buffer is there.  For low-power tariff times (eg at night) turn of plant parts (refrigerant compressors, pressure air compressors), to fill the buffer. If the current is low, go down with the glycol temperature;  Hot water tank production in low-power tariff times.  Drive cleaning programs in low-power tariff times  Optimal use of heat exchangers; Keep K-value high. Fouling problem!  consider the simultaneity factor for motors.

Seite 5V20 Save Energy and Resources with BRAUMAT General Actions Energy saving and cost saving measures  switch Air conditioning on only in the presence of personal (moving-detector).  switch Lighting on only if it is dark (Sensor) and in the presence of human.  Warm-water-boiler on only in time relevant times (Timer)  Vacuum solar collectors for hot water.  If the window is open turn heater / cooling devices off (switch)  Switch not active PC in standby and restart by network (Power- on LAN).

Seite 6V20 Save Energy and Resources with BRAUMAT Save resources Resource conservation and cost savings  Line cleaning: for media separation use only about 6 hl of water between different agents. With that a good media separation this is possible.  Optimization of switching-points for the medium-separation (caustic, water, acid etc).  Flush vessels only if no next Brew is coming.  Mash-Tun-Kettle: Heat with 1 °C per minute. Cleaning is required if it takes too long.Related software on request!  Wort boiling with enthalpy. These requires additional measurements-devices such as vapor pressure and Flow, steam temperature, condensation temperature. A good energy savings is possible with it. Related software on request!

Seite 7V20 Save Energy and Resources with BRAUMAT Save resources Resource conservation and cost savings  Cooling energy is extremely expensive, and the compressors can save a lot of energy when they are used optimally.  adjust the temperature and pressure for Glycol dynamically by the demand. This should be calculated from the cooling equipment such as tanks (which amount is included and which Delta-T is the aim), word cooler etc. Also, the set point for the pressure can be optimized.  The refrigeration compressors have an optimal speed range, depending on how they are currently in use. Comply with these operating rules by according Software.

Seite 8V20 Save Energy and Resources with BRAUMAT applicative Solution with Braumat Quelle: EnergiemanagementSonderdruck zur Fachtagung; "Betriebliches Energiemanagement„ der VDI-Gesellschaft Energietechnik am 6./ , Cottbus

Seite 9V20 Save Energy and Resources with BRAUMAT applicative Solution with Braumat General Functions  The Output can depend of any flag. This flag could be activated from a sequencer.  You can input a Sequence and Step-number to activate the function.  The function can be controlled by a timer.  You can use a countdown timer (one start). E.g. from now on for 3 hours and 10 minutes  The function can be controlled as a function of the week-day  Pulsed Output: for example every minute for 10 second, e.g. for a dosing-control  There is an analogue module. With that the output can be controlled an measured value. And you can define hysteresis, switching direction (switch with actual value > or <).  There are two digital modules with an input query on "= 1" or "= 0". This helps to create an interlocking (e.g. when stop by level min). Or using the function "Reset output", you can realize a level-control. The second input in this case is the level max.  There is a "delay on" and a "delay off" for all functions. With that you can have a reliable switching. Or guarantee that the Output is on for a minimum time  Up to four outputs can be controlled (e.g. valve or motor / pump), two of ICM group 1, two of ICM group 2. The feedback of the corresponding valve is displayed.

Seite 10V20 Save Energy and Resources with BRAUMAT applicative Solution with Braumat General Functions  The Output can depend of any flag. This flag could be activated from a sequencer.  You can input a Sequence and Step-number to activate the function.  The function can be controlled by a timer.  You can use a countdown timer (one start). E.g. from now on for 3 hours and 10 minutes  The function can be controlled as a function of the week-day  Pulsed Output: for example every minute for 10 second, e.g. for a dosing-control  There is an analogue module. With that the output can be controlled an measured value. And you can define hysteresis, switching direction (switch with actual value > or <).  There are two digital modules with an input query on "= 1" or "= 0". This helps to create an interlocking (e.g. when stop by level min). Or using the function "Reset output", you can realize a level-control. The second input in this case is the level max.  There is a "delay on" and a "delay off" for all functions. With that you can have a reliable switching. Or guarantee that the Output is on for a minimum time  Up to four outputs can be controlled (e.g. valve or motor / pump), two of ICM group 1, two of ICM group 2. The feedback of the corresponding valve is displayed.

Seite 11V20 Save Energy and Resources with BRAUMAT applicative Solution with Braumat General Functions  A message can be generated  Also a flag can be activated as Output. This can be used in another module as input, for example if the conditions are not sufficient in one module. Or they can be evaluated in the sequence.  A sequence with different Steps can be activated conditionally  The status on / off of any element (time, analogue, digital) will be displayed. So you have an overview of what is missing.  The individual modules can also be combined, e.g. the same output can be used in different modules.  The button "only reset / interlock" could be used if the output is activated by some other application. The output is only reset by this function. This can be e.g. a function of a energy management system.  You can use the module as "Alarm". The output is activated with delay (to disarm). And you can define a off- time for not to have the alarm too often.  There is also the possibility to use the module as a "pulse". With the conditions, the output is switched on only for a certain time. This can be e.g. an activation by a push-button.  There is the possibility of the module to work as a PID controller. Then you have to select the appropriate analogue Output, Set point and actual value. The rest is done by the module, for example the switching of the output to "0" when not in use, etc. The output of the PID is shown.  Any number of these Universal Functions can be used (default DB length is 50 modules)  All the names of the elements used can be changed directly (units, names for inputs and outputs etc). For the module itself, a name can be specified.

Seite 12V20 Save Energy and Resources with BRAUMAT applicative Solution with Braumat Energy Management  Light / Device delayed off after activation by push-button or motion-detector.  Light / Device delayed off after activation by switch  Devices (air conditioning etc) turn on only during the day  Refrigeration compressors turn on only when there is low power consumption  Refrigeration compressors turn on if temperature < x ° C.  Interlock big energy consumer against each other  Load shedding; shutdown cooling compressors during peak load in the factory

„ Stefan Schranner Telefon: Mobil: Thank you very much! Energie und Ressourcen mit BRAUMATEnergie und Ressourcen mit BRAUMAT