农业工程学报
農業工程學報
농업공정학보
2013年
1期
189-195
,共7页
施阁%付存谓%陆伟%李青%饶宾期
施閣%付存謂%陸偉%李青%饒賓期
시각%부존위%륙위%리청%요빈기
太阳能集热器%太阳能热水器%能量管理%远程监测
太暘能集熱器%太暘能熱水器%能量管理%遠程鑑測
태양능집열기%태양능열수기%능량관리%원정감측
solar concentrator%solar water heaters%energy measurement%telemetering
针对单个贮水箱有效容积大于0.6 m3的太阳能热水工程系统提出了一种热能计量与监测方法,该文介绍了包括太阳能供热量、耗电量、辅助热源供热量、用户管路循环热量损失量、热负荷等能量的计量方法及其理论推导过程.并对太阳能热水工程系统的传感器精度、安装要求及远程监测等技术要求进行了介绍.系统实现的流量检测准确度为±1%,水位检测准确度±2%,水温检测准确度±0.2℃,总耗电量准确度±2%,热能计量的准确度为±2%,实际应用表明该方法能准确有效的计量出太阳能热水工程中的各种能量,适合中国太阳能热水工程的热能计量与监测,为制定中国太阳能热水工程系统热能计量和监测国家标准提供了试验和技术储备.
針對單箇貯水箱有效容積大于0.6 m3的太暘能熱水工程繫統提齣瞭一種熱能計量與鑑測方法,該文介紹瞭包括太暘能供熱量、耗電量、輔助熱源供熱量、用戶管路循環熱量損失量、熱負荷等能量的計量方法及其理論推導過程.併對太暘能熱水工程繫統的傳感器精度、安裝要求及遠程鑑測等技術要求進行瞭介紹.繫統實現的流量檢測準確度為±1%,水位檢測準確度±2%,水溫檢測準確度±0.2℃,總耗電量準確度±2%,熱能計量的準確度為±2%,實際應用錶明該方法能準確有效的計量齣太暘能熱水工程中的各種能量,適閤中國太暘能熱水工程的熱能計量與鑑測,為製定中國太暘能熱水工程繫統熱能計量和鑑測國傢標準提供瞭試驗和技術儲備.
침대단개저수상유효용적대우0.6 m3적태양능열수공정계통제출료일충열능계량여감측방법,해문개소료포괄태양능공열량、모전량、보조열원공열량、용호관로순배열량손실량、열부하등능량적계량방법급기이론추도과정.병대태양능열수공정계통적전감기정도、안장요구급원정감측등기술요구진행료개소.계통실현적류량검측준학도위±1%,수위검측준학도±2%,수온검측준학도±0.2℃,총모전량준학도±2%,열능계량적준학도위±2%,실제응용표명해방법능준학유효적계량출태양능열수공정중적각충능량,괄합중국태양능열수공정적열능계량여감측,위제정중국태양능열수공정계통열능계량화감측국가표준제공료시험화기술저비.
A large number of non-pressure solar water heating systems have been installed in China, the majority of them possess storage tank which the effective volume are greater than 0.6 m3, and their influent and effluent are non-simultaneity, then directly using a calorimeter to calculate heat is inappropriate by measure the temperature difference between the inlet and outlet. Considering the operability of actual system, this paper presents a method for calculating the heat load of the solar water heating system by measurement parameters, such as inlet water temperature and flow, outlet water temperature and flow, storage tanks water temperature and water level. A variety of energy measurement methods and theoretical derivation are introduced in this paper, which including solar energy for heating, electricity consumption, auxiliary heat source energy, piping loop heat loss and heat load. And the sensors accuracy, installation requirements and remote monitoring technology are introduced exhaustively in this paper. The energy measurement and monitoring methods have been used successfully in the BHL solar water heating engineering control systems. A calorimeter has been developed for measuring the solar heat load which uses the heat load calculation formula, and another calorimeter for measuring the solar heat energy and piping heat loss which uses the simultaneity heat calculation formula. The calorimeter can get the amount of hot water used and calculate the cost for each user, which supports ModBus communication protocol. The system uses a three-phase auxiliary heating to provide energy when solar energy is insufficient. And the remote three-phase energy meter supports Modbus communication protocol too. Actually it shows that this method can accurately and effectively measure all kinds of energy of the solar water heating system, and it is suitable for energy measurement and monitoring of the solar water heating system in China. The experiment can provide technical reserves for developing the energy measurement and monitoring national standards of solar water heating system.