array(4 items)
   caller => 'TYPO3\CMS\Core\Database\DatabaseConnection::exec_SELECTquery' (60 chars)
   ERROR => 'You have an error in your SQL syntax; check the manual that corresponds to y
      our MySQL server version for the right syntax to use near 'LIMIT 1' at line
' (153 chars) lastBuiltQuery => 'SELECT * FROM tx_imilenzetheme_domain_model_sociallinks WHERE pid = 10455 AN
      D deleted = 0 AND hidden = 0 AND sys_language_uid = LIMIT 1
' (136 chars) debug_backtrace => '{closure}#34 // TYPO3\CMS\Frontend\Http\Application->run#33 // TYPO3\CMS\Cor
      e\Core\Bootstrap->handleRequest#78 // TYPO3\CMS\Frontend\Http\RequestHandler
      ->handleRequest#308 // TYPO3\CMS\Frontend\Page\PageGenerator::renderContent#
      216 // TYPO3\CMS\Frontend\ContentObject\ContentObjectRenderer->cObjGet#210 /
      / TYPO3\CMS\Frontend\ContentObject\ContentObjectRenderer->cObjGetSingle#805
      // TYPO3\CMS\Frontend\ContentObject\ContentObjectRenderer->render#859 // TYP
      O3\CMS\Frontend\ContentObject\UserContentObject->render#943 // TYPO3\CMS\Fro
      ntend\ContentObject\ContentObjectRenderer->callUserFunction#40 // call_user_
      func_array#7322 // TYPO3\CMS\Extbase\Core\Bootstrap->run# // TYPO3\CMS\Extba
      se\Core\Bootstrap->handleRequest#193 // TYPO3\CMS\Extbase\Mvc\Web\FrontendRe
      questHandler->handleRequest#206 // TYPO3\CMS\Extbase\Mvc\Dispatcher->dispatc
      h#69 // TYPO3\CMS\Extbase\Mvc\Controller\ActionController->processRequest#86
       // TYPO3\CMS\Extbase\Mvc\Controller\ActionController->callActionMethod#176
      // call_user_func_array#283 // FluidTYPO3\Flux\Controller\AbstractFluxContro
      ller->renderAction# // FluidTYPO3\Flux\Controller\AbstractFluxController->pe
      rformSubRendering#206 // TYPO3\CMS\Fluid\View\AbstractTemplateView->render#2
      35 // FluidCache_ImiLenzeTheme_Page_layout_Page_FullWidth_1400e122473ea2d386
      a878a74abe2566d046449d->render#189 // TYPO3\CMS\Fluid\ViewHelpers\RenderView
      Helper::renderStatic#116 // TYPO3\CMS\Fluid\View\AbstractTemplateView->rende
      rPartial#119 // TYPO3\CMS\Fluid\View\AbstractTemplateView->renderSection#286
       // FluidCache_ImiLenzeTheme_Page_partial_Page_Footer_Footer_2c8803014ea6146
      230 // TYPO3\CMS\Fluid\ViewHelpers\RenderViewHelper::renderStatic#38 // TYPO
      3\CMS\Fluid\View\AbstractTemplateView->renderSection#121 // FluidCache_ImiLe
      587e4->section_26c01e70a337f208f56dae1c3bc18f60c4bff453#230 // TYPO3\CMS\Flu
' (2851 chars)
Energieeffizienz - Lenze in Turkey. As easy as that.

Ecologically sensible, economically valuable.

Energy efficient with Lenze BlueGreen Solutions

On the basis of a holistic consideration of the tasks involved, we show you how the energy efficiency of your drive applications can be increased with intelligent drive and automation technology. We also assist you regarding adherence to important standards and laws.

Three approaches are pursued in order to increase the energy efficiency of drives:

1. Using electrical energy intelligently: as little as possible

  • Needs-based dimensioning
  • Controlled operation (frequency inverter)
  • Energy-efficient motion control #

2. Converting energy with a high degree of efficiency

  • Components with a high degree of efficiency (motors, gearboxes)

3. Using regenerative braking energy

  • Energy exchange between several drives
  • Temporary storage of braking energy
  • Regeneration of braking energy and potential energy

Efficient drive sizing with Drive Solution Designer (DSD)

Intelligent drive design is the basis for a drive system that has the right components, is exactly dimensioned and is therefore as small as possible. Thanks to Drive Solution Designer (DSD), the energy saving potential is apparent at a glance and is documented in the Energy Performance Certificate. It is also easy to comprehensibly compare different solutions.

The reason is that DSD incorporates a great deal of useful systems-design knowledge - with solidly based drive-applications know-how in areas such as drive physics, variants and energy efficiency. Drive design is based on calculations with individual process data and on speed profiles, and takes into account the complete drive structure for the requirements of the machine in question.

In our DSD training course, we will be happy to tell you more about how easy it is to use this engineering tool.