Introduction
Geothermal power plants create electricity from geothermal energy. These power plants are similar to other steam turbine station; however their heat source is that of the earth's core. The created steam is used to turn the turbine for the production of electricity. Technologies include Dry steam, Flash steam and Binary cycle power stations with Binary cycle being the most common geothermal plant in current production. In the process of geothermal power generation the facility needs to monitor various processes, as in this case steam line pressure sits in remote from control room's location.
Benefits
- Reduced installation cost (CAPEX), high gain antennas allow remote monitoring up to 5km
- Improved future flexibility & scalability with ISA100 Wireless open and scalable network design
- Minimized infrastructure with long battery life (10 years with 30sec updates), reduced maintenance costs and effort based on flexible device functionality
- Reduced patrol rounds by monitoring steam pressure measurements located 2km away from control room
Requirements
To replace existing pressure gauges on production wells with wireless pressure transmitters for online monitoring back at the local control room which can be relayed to operations. Measurement points are located in dense forest where the terrain slope is 1:20 which increased the difficulty of wireless communication.
Challenges
- Long Communication Range in dense forest
- Antenna propagation angle
Solution
The YFGW410 / 520 was installed neat the control room, fitted with a 6dBi antenna to enable the long communication hop to the steam. The YTA510 wireless temperature transmitter also was fitted with a remote high gain antenna to act as a repeater in order to extend the coverage of the measurement points. The EJX110B wireless pressure transmitters were directly mounted at the required measurement points. Remote antenna cables were used for Sky Mesh approach to avoid forest obstacles with angled antennas for sloping signal propagation to match the grade of the environment.
Conclusion
- High gain antenna provided exceptional performance where only one repeater could achieve reliable communication with gateway covering the required distance.
- Field patrol interval was extended from daily monitoring to monthly in order to verify the site status and security.
- The wireless network enabled easy expansion of additional wireless measurement points.
Yokogawa has a proven track record of delivering reliable, scalable and open technologies for a century. ISA100 wireless solutions address the specific challenges of the industrial automation industry while lowering cost ownership for our end users and maximizing their return on the investment.
產業別
相關產品&解決方案
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EJX110B 無線差壓傳送器
高性能無線差壓傳送器EJX110B採用單晶矽共振感測器,適用於測量液體、氣體或蒸汽流量以及液位、密度和壓力。
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YFGW410現場無線管理站
YFGW410現場無線管理站以國際自動化協會(ISA)的工業自動化無線通信標準ISA100.11a為基準。該產品具有符合ISA100.11a標準的系統管理/安全管理/網關功能,與現場無線接入點(YFGW510)和/或現場無線媒體轉換器(YFGW610)組合,構成現場無線系統。
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YFGW520 Field Wireless Access Point
YFGW520 Field Wireless Access Poin has backbone router function based on ISA, and combining this with Field Wireless Management Station (YFGW410) and/or Field Wireless Media Converter (YFGW610) composes the field wireless system.
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YFGW710 Field Wireless Integrated Gateway
YFGW710 Field Wireless Integrated Gateway comply to the wireless communications standard ISA100.11a for industrial automation of International Society of Automation (ISA), and relays ISA100 Device data to the system via integrated backbone router. Single unit of YFGW710 has integrated functions of backbone router, system manager, security manage, and gateway.
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YTA510無線溫度變送器
高性能溫度變送器YTA510接收熱電偶、RTD、歐姆或DC mV輸入信號。該變送器通製無線信號傳輸製程變量以及設定參數。該變送器採用內定電池,由於無需硬接線,因此可降低安裝成本。通信規格以ISA100.11a協議為基礎。
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現場無線
無線解決方案的靈活性可減少對基礎設施的投入,同時可以對工廠運營有更深入的了解。