Evaluation of capacitance moisture sensors for use in municipal solid waste

Schmidt, Patrick

03 March 2010

Current municipal solid waste (MSW) practices have encouraged rapid waste degradation (stabilization) as an alternative to past methods of isolating the waste from the surrounding environment. There are challenges to rapid-stabilization technology, in particular, the management of the in-situ MSW moisture content.<p> The primary objective of this study was to evaluate the use of capacitance moisture probes for the purpose of measuring the moisture content within MSW. Capacitance moisture probes have not previously been used in MSW, however their use in agriculture is extensive and knowledge of their potential for monitoring MSW is limited.<p> The specific objectives of this research were to: i) establish a laboratory based correlation between sensor data and volumetric moisture content in MSW, ii) establish a correlation between field-installed capacitance sensors and moisture content derived from continuous-depth in-situ sampling of MSW, and iii) demonstrate the ability of capturing advancing/receding moisture fronts with the field-installed capacitance sensors.<p> Laboratory trials were conducted using hand-compacted MSW at volumetric moisture contents ranging from 15%-55% and a manual type of capacitance sensor. This series of laboratory trials successfully produced a correlation between sensor output and volumetric moisture content.<p> To evaluate the sensors in a real-world application, two configurations of capacitance moisture probes were installed in the field: i) an in-place, continuous-time capacitance probe, and ii) a portable, continuous-depth at discrete time, capacitance probe.<p> Field results indicated that capacitance moisture probes were able to capture the passing of both an artificially and naturally induced moisture front, though quantitative correlation between the in-situ moisture content of the sampled MSW and the readings of the sensors could not be achieved.<p> The reasons for this were a combination of three factors:<p> 1. The introduction of void-space during sensor installation significantly reduced sensor output;<p> 2. Poor MSW sampling technique resulted in 57% recovery (causing the exact origin of samples to be unknown); and<p> 3. The sampling technique disturbed the MSW samples, resulting in incorrect volumetric moisture contents in the samples.

rapid stabilization

moisture sensing

capacitance sensors

municipal solid waste

Evaluation of capacitance moisture sensors for use in municipal solid waste

Schmidt, Patrick

03 March 2010

Current municipal solid waste (MSW) practices have encouraged rapid waste degradation (stabilization) as an alternative to past methods of isolating the waste from the surrounding environment. There are challenges to rapid-stabilization technology, in particular, the management of the in-situ MSW moisture content.<p> The primary objective of this study was to evaluate the use of capacitance moisture probes for the purpose of measuring the moisture content within MSW. Capacitance moisture probes have not previously been used in MSW, however their use in agriculture is extensive and knowledge of their potential for monitoring MSW is limited.<p> The specific objectives of this research were to: i) establish a laboratory based correlation between sensor data and volumetric moisture content in MSW, ii) establish a correlation between field-installed capacitance sensors and moisture content derived from continuous-depth in-situ sampling of MSW, and iii) demonstrate the ability of capturing advancing/receding moisture fronts with the field-installed capacitance sensors.<p> Laboratory trials were conducted using hand-compacted MSW at volumetric moisture contents ranging from 15%-55% and a manual type of capacitance sensor. This series of laboratory trials successfully produced a correlation between sensor output and volumetric moisture content.<p> To evaluate the sensors in a real-world application, two configurations of capacitance moisture probes were installed in the field: i) an in-place, continuous-time capacitance probe, and ii) a portable, continuous-depth at discrete time, capacitance probe.<p> Field results indicated that capacitance moisture probes were able to capture the passing of both an artificially and naturally induced moisture front, though quantitative correlation between the in-situ moisture content of the sampled MSW and the readings of the sensors could not be achieved.<p> The reasons for this were a combination of three factors:<p> 1. The introduction of void-space during sensor installation significantly reduced sensor output;<p> 2. Poor MSW sampling technique resulted in 57% recovery (causing the exact origin of samples to be unknown); and<p> 3. The sampling technique disturbed the MSW samples, resulting in incorrect volumetric moisture contents in the samples.

rapid stabilization

moisture sensing

capacitance sensors

municipal solid waste

Manejo hídrico e nutricional para produção de porta-enxertos de Limão Cravo em mesas de subirrigação automatizadas por sensores capacitivos / Water and nutritional management for Rangpur Lime production in subirrigation benches automated by capacitance sensors

Ferrarezi, Rhuanito Soranz, 1979-

23 August 2018

Orientadores: Roberto Testezlaf, Edson Eiji Matsura / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Agrícola / Made available in DSpace on 2018-08-23T17:09:05Z (GMT). No. of bitstreams: 1 Ferrarezi_RhuanitoSoranz_D.pdf: 5899539 bytes, checksum: e34ae1ed734a1ae34008af248708220d (MD5) Previous issue date: 2013 / Resumo: A subirrigação tem potencial para reduzir as perdas de água e nutrientes em sistemas de produção de mudas cítricas por permitir a recirculação e o reuso da solução nutritiva (SN), promover economia de fertilizantes e reduzir o seu descarte inadequado no meio ambiente. O objetivo desse experimento foi estabelecer o manejo hídrico e nutricional para produção de porta-enxertos (PE) de limão Cravo em tubetes, na fase de sementeira, usando mesas de subirrigação automatizadas por sensores capacitivos para monitoramento da umidade e controle da irrigação. Os tratamentos testados foram quatro conteúdos volumétricos de água (CVA) do substrato para acionamento da irrigação (0,12; 0,24; 0,36 e 0,48 m3 m-3), três concentrações de nutrientes na SN (25%, 50% e 75% da recomendação de adubação para PE em tubetes) e um tratamento adicional (sistema de produção do viveirista, com irrigação manual por chuveiro), arranjados no delineamento experimental inteiramente casualizado em esquema fatorial 4×3+1, com três repetições. A automação foi realizada conectando-se sensores capacitivos a um sistema de controle computacional formado por data logger, multiplexador e controladores de saídas, que acionavam bombas submersas de irrigação de acordo com valores de CVA estabelecidos como tratamentos. Ao longo do período experimental, houve monitoramento do CVA e do número de acionamentos da irrigação. Semanalmente, realizou-se a reposição e medição do volume total de SN aplicado, determinação de pH e condutividade elétrica (CE) dos substratos, avaliação da presença de pragas e doenças e do índice de área foliar (IAF). Aos 0, 30, 60 e 90 dias após o início do experimento, realizaram-se amostragens para análises de macro e micronutrientes nas plantas, substratos e SN, e determinação da altura das plantas, diâmetro de caule, massa seca de parte aérea e das raízes e área foliar total (AFT). Ao final do experimento, realizou-se análise fitopatológica para detecção de Phytophthora spp. no substrato e na SN, avaliação da diagnose nutricional visual e das perdas na produção, aparecimento de algas, determinação nas folhas das plantas da concentração intracelular de CO2 (Ci), transpiração (E), condutância estomática (gs), fotossíntese líquida (A) e da eficiência do uso da água (E.U.A.). Os resultados indicaram que os sensores foram eficientes no monitoramento da umidade e controle da subirrigação, sendo que os tratamentos com maior valor de CVA apresentaram maior umidade e número de acionamentos da irrigação (p < 0,0001). Houve aumento de aproximadamente 100% no volume total de SN aplicada à medida que se elevaram os valores de CVA a cada 0,12 m3 m-3 (p < 0,0001), decréscimo do pH e aumento da CE no substrato dos tratamentos com maior concentração de SN e maior CVA para acionamento da irrigação (p < 0,0001). As plantas apresentaram aumentos significativos do IAF, altura, diâmetro de caule, massa seca de parte aérea e das raízes e área foliar total (AFT) (p < 0,0001) à medida que os níveis de SN e CVA aumentaram. Houve resposta significativa aos diferentes tratamentos de SN e CVA de acionamento para concentração de nutrientes no substrato e na SN dos reservatórios de 121 L e para o teor de nutrientes na parte aérea e sistema radicular. Os tratamentos com CVA de 0,12 m3 m-3 promoveram a morte de diversas plantas por estresse hídrico. Os valores de Ci, E, gs, A e E.U.A. foram significativamente maiores nas plantas com maiores concentrações de SN e valores de CVA (p < 0,001). O tratamento com a concentração de SN 50% e CVA de 0,48 m3 m-3 promoveu maior crescimento em altura, diâmetro, massa seca e área foliar total dos PE de Limão Cravo. A subirrigação permitiu a antecipação no período de transplantio para realização da enxertia, possibilitando um ciclo de cultivo extra no viveiro por ano. O período de retorno da substituição do sistema convencional de irrigação manual por chuveiros obtido somente com o valor economizado pela redução do uso de mão de obra, redução da concentração de SN para 50% e eliminação do descarte de fertilizantes foi de 5,6 anos / Abstract: Subirrigation has the potential to reduce water and nutrients losses in citrus seedlings production systems due to the nutrient solution (NS) recirculation and reuse, promoting fertilizer savings and the reduction of its improper disposal into the environment. The objective of this study was to establish the water and nutritional management for Rangpur lime rootstock production in cone-tainers at the sowing stage, using subirrigation benches automated by capacitance sensors to monitor moisture and control irrigation. The applied treatments were four substrate volumetric water content (VWC) to trigger irrigation (0.12, 0.24, 0.36 and 0.48 m3 m-3), three nutrient concentrations of the NS (25%, 50% and 75% of the fertilizer recommendation for citrus rootstocks production) and an additional treatment (nursery production system with manual irrigation using a shower), in a completely randomized experimental design with three replications in a 4×3+1 factorial. Automation was accomplished by a capacitance sensor connected to a data logger, a multiplexer and relay drivers, which were plugged to submersible pumps. The irrigation was performed according to the VWC thresholds. Throughout the experiment, we monitored VWC and the number of irrigations. Weekly, we replenished the tanks and measured the total volume of NS applied, and determined the substrate pH and electric conductivity (EC), the presence of pests and diseases and the leaf area index (LAI). At 0, 30, 60 and 90 days after the experiment starting, we sampled plants, substrates and NS for macro and micronutrients analyzes, and determined plant height, stem diameter, shoots and roots dry mass and total leaf area (LA). At the end of the experiment, we performed phytopathological analysis to detect Phytophthora spp. in the substrate and NS, diagnosed visual symptoms of nutritional deficit, assessed the production losses, counted the number of benches contaminated with algae, and determined the leaf intracellular concentration of CO2 (Ci), transpiration (E), stomatal conductance (gs), net photosynthesis (A) and water use efficiency (WUE). The results indicated that the sensors were effective to monitoring the substrate moisture and controlling subirrigation, and the treatments with highest VWC had higher moisture and number of irrigations over time (p < 0.0001). There was an increase of approximately 100% in the total volume of water applied as VWC values increased 0.12 m3 m-3 (p < 0.0001), a decrease in substrate pH and an increase in the substrate EC in treatments with higher substrate concentration of NS and higher VWC to trigger irrigation (p < 0.0001). The plants showed significant increases of LAI, height, stem diameter, shoots and roots dry mass and LA as the levels of NS and VWC increased (p < 0.0001). There were significant responses to different treatments of NS and VWC to trigger irrigation in the concentration of nutrients in the substrate and in the NS of 121 L tanks, and in the nutrient content in shoots and roots. Treatments with VWC of 0.12 m3 m-3 promoted the death of several plants by drought. The values of Ci, E, gs, A and WUE were significantly higher in plants with higher concentrations of NS and VWC thresholds (p < 0.001). Treatment with NS concentration of 50% and VWC of 0.48 m3 m-3 promoted higher plant height, stem diameter, dry mass, and total leaf area of Rangpur lime rootstocks. Subirrigation permitted the anticipation of transplant for grafting, allowing another cultivation cycle in the nursery during the year. The payback period for the replacement of the manual overhead system by subirrigation only with the savings obtained for the labor elimination to perform irrigation, the reduction in the NS concentration of 50%, and the elimination of the fertilizer disposal was 5.6 years / Doutorado / Agua e Solo / Doutor em Engenharia Agrícola

Automação

Engenharia de irrigação

Viveiros de mudas

Cítricos

Capacitance sensors

Irrigation engineering

Nurseries

Nurseries

Citrus

Σχεδιασμός, ανάλυση και υλοποίηση κυκλωμάτων για τη μέτρηση και τον έλεγχο χωρητικών και ηλεκτροχημικών αισθητήρων

Ράμφος, Ιωάννης

07 May 2015

Τα συστήματα μοριακής διαγνωστικής έχουν έρθει στο προσκήνιο τα τελευταία χρόνια δίνοντας τη δυνατότητα για αυτοματοποιημένες, αξιόπιστες, γρήγορες και χαμηλού κόστους βιολογικές αναλύσεις. Τέτοια συστήματα χαρακτηρίζονται από σύνθετη λειτουργικότητα, η οποία συνδυάζει πληθώρα ενεργοποιητών και αισθητήρων που συνεργάζονται για την εκτέλεση βιολογικών πρωτοκόλλων. Με βάση τα πρωτόκολλα αυτά και με τη χρήση μικροροϊκών συστημάτων, τα βιολογικά δείγματα και αντιδραστήρια υποβάλλονται σε διάφορα στάδια επεξεργασίας. Κατόπιν της επεξεργασίας τους, τα δείγματα υπό μελέτη καταλήγουν πάνω στην επιφάνεια αισθητήρων, οι οποίοι είναι ειδικά ευαισθητοποιημένοι ώστε να ανιχνεύουν συγκεκριμένες βιολογικές αλληλεπιδράσεις ενδιαφέροντος και να αποκρίνονται μεταβάλλοντας αναλόγως ένα φυσικό μέγεθος, μετρήσιμο από ηλεκτρονικά κυκλώματα. Τα ηλεκτρονικά κυκλώματα ανάγνωσης των αισθητήρων αποτελούν ένα από τα κυριότερα τμήματα ενός συστήματος μοριακής διαγνωστικής, καθώς βάσει της απόκρισης αυτών προκύπτουν τα διαγνωστικά αποτελέσματα. Κατά συνέπεια, αναγνωρίζεται ο σημαντικός ρόλος που κατέχουν στη συνολική αναλυτική διαδικασία. Είναι απαραίτητο οι μετρήσεις που εκτελούν να χαρακτηρίζονται από μεγάλη ακρίβεια με υψηλή διακριτική ικανότητα για κάθε αισθητήριο στοιχείο. Ταυτόχρονα όμως, πρέπει να εξασφαλίζεται και η αξιοπιστία της μέτρησης σε επίπεδο βιολογικής διεργασίας. Σε αυτό το στόχο συντελεί η χρήση συστοιχιών αισθητήρων, με τις οποίες η ίδια μέτρηση μπορεί να εκτελεστεί παράλληλα σε πολλά στοιχεία και συνοδεύεται από μετρήσεις θετικού και αρνητικού ελέγχου. Πάνω στη συστοιχία μπορούν να εκτελεστούν και συμπληρωματικές μετρήσεις περισσότερων δειγμάτων, ώστε τα αποτελέσματα που εξάγονται να δίνουν μια πιο ολοκληρωμένη αναλυτική εικόνα. Υπό αυτό το πρίσμα, οι μεγάλου μεγέθους συστοιχίες αισθητήρων μπορούν να προσφέρουν βέλτιστα αποτελέσματα. Η παρούσα διδακτορική διατριβή επικεντρώνεται στα κυκλώματα ανάγνωσης συστοιχιών χωρητικών και ηλεκτροχημικών αισθητήρων, δύο ευρέως χρησιμοποιούμενων τεχνολογιών αισθητήρων. Η αρχή λειτουργίας των χωρητικών αισθητήρων βασίζεται στο γεγονός ότι οι αλληλεπιδράσεις βιομορίων που μελετούνται ασκούν δυνάμεις και παραμορφώνουν την ευέλικτη μεμβράνη πυριτίου που αποτελεί τον έναν οπλισμό ενός μεταβλητού πυκνωτή. Συνέπεια αυτής της παραμόρφωσης είναι η ανάλογη μεταβολή της χωρητικότητας που παρουσιάζει η μεμβράνη με το υπόστρωμα πυριτίου, μεταβολή που μετράται από το κύκλωμα. Στην περίπτωση των ηλεκτροχημικών αισθητήρων, η αντίστοιχη αλληλεπίδραση βιομορίων, με τη βοήθεια βιομορίων σήμανσης, προκαλεί τη μεταβολή της αγωγιμότητας μεταξύ των ηλεκτροδίων τους. Υπό ελεγχόμενες συνθήκες πόλωσης τάσης, το αναπτυσσόμενο ρεύμα που μετράται αντιστοιχεί στην εξέλιξη του βιολογικού φαινομένου. Ιδιαίτερη έμφαση δίνεται στις δυνατότητες κλιμάκωσης της εκάστοτε αρχιτεκτονικής ώστε να είναι επεκτάσιμη στην ανάγνωση πολύ μεγάλων συστοιχιών αισθητήρων με βέλτιστο τρόπο, διατηρώντας μικρές διαστάσεις για τα κυκλώματα ανάγνωσης. Συγχρόνως, εξασφαλίζεται με διάφορες στρατηγικές η ορθή λήψη μετρήσεων από κάθε στοιχείο, χωρίς την επίδραση από τα υπόλοιπα μέλη της συστοιχίας. Για την ανάγνωση συστοιχιών χωρητικών αισθητήρων σχεδιάστηκε και υλοποιήθηκε ολοκληρωμένο κύκλωμα σε τεχνολογία 0.35 μm, που στον πυρήνα της μέτρησης διαθέτει έναν ταλαντωτή χαλάρωσης με βρόχο υστέρησης ρεύματος. Υποστηρίζεται από προγραμματιζόμενες πηγές ρεύματος διέγερσης ώστε να καλύπτεται ένα ευρύ φάσμα χωρητικοτήτων για τους αισθητήρες. Το σύστημα πολύπλεξης που αναπτύχθηκε για τη διασύνδεση κάθε μέλους από τις συστοιχίες αισθητήρων πάνω στον πυρήνα ανάγνωσης μπορεί να διαχειριστεί πεπλεγμένες συστοιχίες, όπου τα στοιχεία είναι οργανωμένα με κοινές γραμμές και στήλες ηλεκτρικών επαφών στους οπλισμούς τους. Με αυτόν τον τρόπο είναι δυνατή η δημιουργία μεγάλων συστοιχιών με μικρό πλήθος ακροδεκτών διασύνδεσης. Η πρόκληση της ανάγνωσης τέτοιου είδους συστοιχιών έγκειται στις αλληλεπιδράσεις μεταξύ των στοιχείων, λόγω ανεπιθύμητων μονοπατιών στο ρεύμα φόρτισης του ταλαντωτή. Μία πρώτη αντιμετώπιση αυτού του προβλήματος διαφωνίας γίνεται με τη χρήση διακοπτών δύο καταστάσεων στις μονάδες πολύπλεξης, ώστε να ελέγχεται ο τρόπος με τον οποίο διεγείρεται το μετρούμενο καθώς και τα υπόλοιπα στοιχεία κατά τη μέτρηση. Με διαδοχικές μετρήσεις υπό διαφορετικές συνδεσμολογίες στους πολυπλέκτες και με κατάλληλη μαθηματική επεξεργασία, μπορούν να εξαχθούν ακριβείς μετρήσεις για την κατάσταση κάθε αισθητήρα της συστοιχίας. Η στατικότητα του συστήματος κατά τη διάρκεια των διαδοχικών μετρήσεων που είναι προϋπόθεση για το σωστό υπολογισμό των αποτελεσμάτων, βασίζεται στην ιδιαίτερα αργή εξέλιξη των βιολογικών φαινομένων στην επιφάνεια των αισθητήρων. Στα πλαίσια της διατριβής έγινε και ένας επανασχεδιασμός του κυκλώματος ανάγνωσης συστοιχιών, σε επίπεδο σχηματικού και φυσικού σχεδιασμού, του οποίου η λειτουργία επιβεβαιώθηκε με post-layout εξομοιώσεις. Σε αυτή την ανάπτυξη έγινε προσθήκη επιπλέον υπομονάδων και η βελτίωση των υπαρχουσών. Από τα κύρια χαρακτηριστικά αυτού του σχεδιασμού είναι μια μονάδα απομονωτή, που προσφέρει έναν δεύτερο τρόπο αντιμετώπισης του προβλήματος διαφωνίας μεταξύ των στοιχείων, αποτρέποντας το ρεύμα φόρτισης του ταλαντωτή να οδηγηθεί προς μη επιθυμητά στοιχεία. Επιπλέον, οι μονάδες ταλάντωσης που χρησιμοποιεί το επανασχεδιασμένο κύκλωμα είναι δύο, για ταυτόχρονη ανάγνωση αισθητήρων και ταχύτερη σάρωση μεγάλων συστοιχιών, με το εύρος του προγραμματιζόμενου ρεύματος να είναι μεγαλύτερο, καλύπτοντας μεγαλύτερο φάσμα αισθητήρων. Τέλος, αυτή η έκδοση του κυκλώματος έχει πιο αυτόνομο χαρακτήρα, με την ενσωμάτωση ενός υποσυστήματος σειριακής επικοινωνίας και ελέγχου. Για τη δεύτερη τεχνολογία αισθητήρων που καλύπτει η παρούσα διατριβή, των ηλεκτροχημικών αισθητήρων, σχεδιάστηκαν και υλοποιήθηκαν κυκλώματα ανάγνωσης συστοιχιών με χρήση διακριτών στοιχείων, καθώς επίσης και κυκλώματα με το βασικό πυρήνα μέτρησης να υλοποιείται σε ολοκληρωμένη μορφή με τεχνολογία 90 nm. Για τους σχεδιασμούς αυτούς έχει αναπτυχθεί η τεχνική της υβριδικής πολύπλεξης, βάσει της οποίας τα μέλη της συστοιχίας ομαδοποιούνται καταλλήλως, ώστε να επιτευχθούν οι απαιτούμενες επιδόσεις σε ρυθμούς δειγματοληψίας από το κύκλωμα ανάγνωσης, ενώ παράλληλα το μέγεθος του κυκλώματος παραμένει μικρό. Η υβριδική πολύπλεξη συνδυάζει διαδοχική ανάγνωση με παράλληλη ανάγνωση στοιχείων, κάνοντας χρήση πολυπλεκτών και κατάλληλου αριθμού υποσυστημάτων μέτρησης που επαναχρησιμοποιούνται για πολλά αισθητήρια στοιχεία. Η ιδιαιτερότητα που έχουν αυτού του τύπου οι μετρήσεις έγκειται στην απαίτηση για διαρκή πόλωση όλων των στοιχείων χωρίς διακοπή της ροής του ρεύματος μέσω αυτών, που καλύπτεται μέσω ειδικά διαμορφωμένων πολυπλεκτών δύο καταστάσεων οι οποίοι εξασφαλίζουν τις σωστές συνθήκες λειτουργίας. Επιπρόσθετες βελτιώσεις που παρέχει η υλοποίηση του κυκλώματος ανάγνωσης σε μορφή ολοκληρωμένου είναι η δυνατότητα εναλλαγής μεταξύ δύο τύπων κυκλωμάτων μέτρησης, με χρήση ενισχυτή διαντίστασης και ολοκληρωτή. Οι δύο τρόποι μέτρησης χρησιμοποιούνται συμπληρωματικά, ώστε να καλυφθεί μεγάλη δυναμική περιοχή λειτουργίας και γρήγορη απόκριση, αλλά και υψηλή ανάλυση, ανάλογα με τις απαιτήσεις κατά τη διάρκεια της πειραματικής διαδικασίας. Για το χαρακτηρισμό των κυκλωμάτων ανάγνωσης που αναπτύχθηκαν και για τις δύο τεχνολογίες αισθητήρων, έγιναν μετρήσεις με πρότυπα φορτία, καθώς και με συστοιχίες, για να εξαχθούν συμπεράσματα για την απόκρισή τους. Κατόπιν των ελέγχων καλής λειτουργίας των κυκλωμάτων και των μεθόδων που ακολουθούνται, πραγματοποιήθηκαν και επιτυχείς μετρήσεις βιολογικής σημασίας, που επιβεβαιώθηκαν από συστήματα αναφοράς. / Molecular diagnostics systems have come to the forefront in recent years allowing for automated, reliable, rapid and inexpensive bioassays. Such systems are characterized by complex functionality, which combines variety of actuators and sensors that cooperate to perform biological protocols. Based on these protocols and using microfluidic systems, biological samples and reagents are subjected to various processing steps. Following this treatment, the samples under study are placed on the surface of sensors, which are functionalized to detect specific biological interactions of interest and respond accordingly by changing a physical quantity, measurable by electronic circuits. The sensor readout electronic circuits are one of the main parts of a molecular diagnostics system, as the diagnostic results are based on their response. Consequently, it is recognized that they hold an important role in the overall analytical process. It is necessary that the measurements they perform are highly accurate with high resolution for each sensor element. At the same time, the reliability of the measurement at a biological process level must be ensured. To this aim contributes the use of sensor arrays, with which the same measurement can be performed in parallel on many elements and accompanied by positive and negative control measurements. On the array, additional measurements of multiple samples can be performed, so that the output results give a more comprehensive analytical picture. In this light, large sensor arrays can provide optimal results. This thesis focuses on the readout circuitry for capacitive and electrochemical sensor arrays, two widely used sensor technologies. The operating principle of capacitive sensors is based on the fact that the interactions between the biomolecules under study exert forces and deform the flexible silicon film constituting an armature of a variable capacitor. The consequence of this deformation is a proportional change in capacitance between the film and the silicon substrate, a variation measured by the circuit. In the case of electrochemical sensors, the respective interaction of biomolecules, with the aid of labeling biomolecules, causes a change in conductivity between their electrodes. Under controlled bias voltage conditions, the resulting current that is measured corresponds to the progress of the biological phenomenon. Particular emphasis is given to the scalability potential of each architecture, so it can be optimally expanded for reading very large sensor arrays, maintaining small dimensions for the readout circuits. At the same time, through various strategies it is ensured that measurements of each element are properly acquired, without influence from other members in the array. To read out the capacitive sensor arrays an integrated circuit based on a 0.35 μm technology was designed and implemented, which at its measuring core uses a relaxation oscillator with a current hysteresis loop. It is complemented by programmable excitation current sources to cover a wide range of capacitances for the sensors. The multiplexing system that was developed to connect each member of the sensor arrays on the readout core can handle 'entangled' arrays, where the elements are arranged with common lines and columns of electrical contacts at their armatures. In this way it is possible to create large arrays with a small number of interface terminals. The challenge of reading such arrays lies in the interactions between the elements, because of side paths in the oscillator charging current. A first way to address this crosstalk problem is the use of two-state switches in the multiplexing units, in order to control the way in which the measured element is excited, as well as the other array elements, during measurement. Through successive measurements under different connection configurations on the multiplexers and appropriate mathematical processing, accurate measurements for the status of each sensor in the array can be obtained. The measured system can be considered static during successive measurements, which is a prerequisite for the correct calculation of results, due to the very slow progress of biological phenomena on the surface of the sensors. In the course of this thesis, a redesign of the array readout circuit was made, at a schematic and physical layout design level, the function of which was confirmed by post-layout simulations. In this development extra submodules were incorporated and existing ones were improved. One of the main features of this design is a buffer unit, which offers a second way of addressing the crosstalk problem between the elements, by preventing the oscillator charging current to excite undesirable elements. Furthermore, the redesigned circuit uses two oscillation units for simultaneous sensor readout and faster scanning of large arrays, with the range of their programmable current being greater, covering a larger spectrum of sensors. Finally, this version of the circuit has a more autonomous nature, by incorporating a serial communication and control subsystem. For the second sensor technology covered by this thesis, the electrochemical sensors, array readout circuits were designed and implemented using discrete components, as well as circuits with the basic measurement core being implemented in integrated form using a 90 nm technology. For these designs the technique of hybrid multiplexing was developed, whereby the members of the array are grouped appropriately to achieve the required performance in sampling rate from the readout circuit, while the size of the circuit remains small. Hybrid multiplexing combines sequential and parallel element reading, using multiplexers and the appropriate number of measurement subsystems that are reused for many sensing elements. The particularity of this type of measurements is the requirement for continuous biasing of all elements without interruptions in the current flow through them, which is addressed by specially configured two-state multiplexers that ensure the correct operating conditions. Additional enhancements offered by the implementation of the readout circuit in integrated form is the ability to switch between two types of measurement circuits, using a transimpedance amplifier and an integrator. The two modes of measurement are used in complement, to cover a wide operating dynamic range and fast response, and also high resolution, depending on the requirements during the experimental process. For the characterization of the readout circuits developed for both sensor technologies, measurements were made using standard loads, as well as arrays, to draw conclusions about their response. Following the validation of the proper operation of the circuits and methods used, successful measurements of biological significance were made, which were confirmed by reference systems.

Βιοαισθητήρες

681.2

Sensor readout circuits

Biosensors

Capacitance sensors

Electrochemical sensors

Lab-on-a-chip

SENSOR CALIBRATION SYSTEM AND METHODOLOGY FOR TIP CLEARANCE MEASUREMENTS IN TURBOMACHINES

Santiago D Salinas (10941474)

08 June 2021

<p>With increasingly tighter tip clearances in modern turbomachinery, it is essential to precisely measure this parameter during turbomachinery characterization. Benefits from measuring tip clearances include monitoring the structural integrity of the machine and estimating aerodynamic losses incurred due to leakage flows. At present, capacitance probes are one of the most commonly used sensors for tip clearance measurements in turbomachines as they are accurate and robust. One of the main challenges when using capacitance probes is properly calibrating the sensors, which usually involves complex positioning systems and blade representative targets. This manuscript describes in detail the development of a methodology for in-house calibration of capacitance probes for tip clearance measurements. A novel calibration procedure that does not involve rotating components is investigated and compared against established calibration methods. First, a calibration bench was developed to demonstrate the static and dynamic performance of the acquisition system and perform quasi-static as well as dynamic calibrations in a controlled environment. An in-situ methodology was then developed to calibrate the sensors once installed in a two-stage rotating turbine rig. The proposed methodology does not require complex positioning systems and a regression analysis using a least squares scheme resulted in a coefficient of determination of 0.9998. The calibration was validated using specially designed instrumentation at various speeds that span the operating envelope of the rig. A Bayesian model that was developed to estimate measurement uncertainties for each method showed that uncertainties as low as ± 5μm can be achieved with the proposed system. The proposed methodology was used in a two-stage turbine rig. Measurements taken at three different circumferential locations were subsequently used to map the spatial distribution of tip clearances throughout the speed operational envelope of the turbine. Finally, a reduced order rotor displacement model was developed and fitted to capacitance probes data. The work presented in this thesis lays the foundation for high fidelity tip clearance measurement capabilities at the Purdue Experimental Turbine Aerothermal Laboratory and can be implemented into any rotating rig. </p>

Tip clearance

Capacitance sensors

Capacitance probes

Mechanical Engineering

Aerospace Engineering