反复提问技术控万能的interbus现场总线如何轻松驾驭云端当然可以

反复提问技术控万能的interbus现场总线如何轻松驾驭云端当然可以

众所周知,随着可再生能源的迅猛发展,对于灵活性需求的增长日益显著。未来预测,煤炭和天然气发电厂将主要用于补偿太阳能和风力发电的不足。我们不禁要问,为何还要依赖化石燃料作为电力供应的补充呢?因为存储设备同样能够平衡可再生能源发电产出波动,并支持符合能源转型趋势的分散式方式,同时既不排放环境污染,又可降低成本。

这一方面源于电池和电转气系统的快速发展,另一方面也得益于现代控制技术为通信和网络带来的突破性创新。反过来,这也有助于实现存储设备的多次高效利用。电池不再仅仅与光伏发電相结合,用于增加太阳能供给家庭或企业,也可以用作工业存储设备、本地网络存储单元或大容量存储设备,甚至作为蓄电池组集中运行,以防止电网波动。

当用电高峰突然来袭并危及稳定时,electricity storage systems也能提供短时供给。此外,当汽车越来越普遍成为额外消费者的时候,battery storage价值将更加凸显。在智能网络中,与其他多功能工具一道,它们能够积极促进灵活性的技术以平衡天气影响下的生产波动。

Battery and Power-to-X systems are now widely applied in various projects, significantly improving local energy consumption and stabilizing the grid. Moreover, thanks to modern control technology's breakthrough innovations in communication and networking, as well as the resulting efficient use of storage devices, these technologies will play an increasingly important role in smart grid development.

Power-to-X systems also offer more efficient flexibility options. They can convert excess energy into heat, hydrogen gas, or methane and store it easily within existing heating networks and natural gas networks. These networks provide more abundant idle capacity compared to the electrical network.

万可技术 not only provides safe space-saving connections for batteries and Power-to-X systems but also enables remote access to electric grids through its gateways. Through these gateways, all on-site sensors can be networked via MOD-BUS digital/analog signals collection from each component layer; then they are converted into desired communication protocols like IEC 60870-5-101/-104 or IEC 61850 before transmitting data over a data line.

Conversely, 万可 also allows access from control centers to storage devices and all related systems via TLS 1.2 encryption with special security connections such as IPSec or OpenVPN according to BDEW standards. Furthermore, 万可 links storage device projects into larger yet controllable networks called virtual power plants due to increasing numbers of distributed energy producers causing complex electricity supply involving power generation by different manufacturers leading confusion among diverse interfaces contained within the network that could be resolved using components meeting industry standard VHPready (Virtual Heat & Power) requirements similar to translators allowing understanding between control centers & system counterparts while preparing integration of stored devices into smart grids concurrently ready too!