CASE STUDY
Photo : Ecoclean
Due to the integration of a variable-frequency drive unit , the booster pump is now controlled as a function of demand so that the unit uses much less energy .
consumption involved changes on the air control dampers . Moreover , the flow velocities inside the system were adapted via a modified fan control regime , resulting in substantially less vapour getting discharged . In the case of the booster pump , a variable-frequency drive unit now provides demand-based control and hence , energy savings .
Thanks to these relatively minor improvement measures the system ’ s overall electric power consumption was cut by around 30 percent . Savings of the same magnitude were achieved at the level of the water consumption , and are additionally reflected in a reduced need for cleaning chemicals .
An independently validated reference project
The measures were initially carried out on a system installed in the Steyr / Austria-based engine plant . For an objective evaluation of results , the Technical University of Vienna accompanied the reference project with extensive pre- and postoptimization measurements . Depending on the availability of national or regional programs , the unbiased attestation of this successful efficiency improvement may support applications for public funding .
The SBS Ecoclean Group ( former Dürr Ecoclean ) develops , manufactures and distributes future-oriented machines , systems and services for industrial parts cleaning and surface processing . These solutions , which are technology leaders , support companies around the world to manufacture their products efficiently and sustainably in high quality .
www . ghmediabusiness . com
Doris Schulz , Journalist
49
| Global MDA Journal | NOV-DEC 2017
CASE STUDY
Due to the integration of a variable-frequency drive unit, the booster pump is now controlled as a function of demand so that the
unit uses much less energy.
consumption involved changes on the air control dampers. Moreover, the flow velocities inside the system were adapted via
a modified fan control regime, resulting in substantially less vapour getting discharged. In the case of the booster pump, a
variable-frequency drive unit now provides demand-based control and hence, energy savings.
Thanks to these relatively minor improvement measures the system’s overall electric power consumption was cut by around
30 percent. Savings of the same magnitude were achieved at the level of the water consumption, and are additionally reflected
in a reduced need for cleaning chemicals.
An independently valid ]Y�Y�\�[��H�ڙX��HYX\�\�\��\�H[�]X[H�\��YY�]ۈH�\�[H[��[Y[�H�^\��]\��XKX�\�Y[��[�H[���܈[�ؚ�X�]�B�]�[X][ۈو�\�[�HX��X�[[�]�\��]Hو�Y[��HX���\[�YYH�Y�\�[��H�ڙX��]^[��]�H�KH[���B��[Z^�][ۈYX\�\�[Y[�ˈ\[�[��ۈH]�Z[X�[]Hو�][ۘ[܈�Y�[ۘ[��ܘ[\�H[��X\�Y]\�][ۈو\�X��\�ٝ[Y��X�Y[��H[\�ݙ[Y[�X^H�\ܝ\X�][ۜ��܈X�X��[�[�˂�ܚ\���[���\��[\����˙�YYXX�\�[�\�˘��B�HД�X���X[�ܛ�\
�ܛY\�0���X���X[�H]�[��X[�Y�X�\�\�[�\��X�]\��]\�K[ܚY[�YXX�[�\��\�[\[��\��X�\��܈[�\��X[\���X[�[��[��\��X�H���\��[�ˈ\�H��][ۜ��X�\�HX�����HXY\���\ܝ���\[�Y\�\��[�H�ܛ�X[�Y�X�\�HZ\���X��Y��X�Y[�H[��\�Z[�X�H[�Y�]X[]K��